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1. A TdT-driven amplification loop increases CRISPR-Cas12a DNA detection levels

Author: Zwerus, Jordy T., primary, Berghuis, Nicole F., additional, Jacques, Jeroen M., additional, Mars-Groenendijk, Roos, additional, Busker, Ruud W., additional, Paauw, Armand, additional, de Jong, Ad L., additional, and van Leeuwen, Hans C., additional
Published: 2024
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2. Entanglement between a diamond spin qubit and a photonic time-bin qubit at telecom wavelength

Author: Tchebotareva, Anna, Hermans, Sophie L. N., Humphreys, Peter C., Voigt, Dirk, Harmsma, Peter J., Cheng, Lun K., Verlaan, Ad L., Dijkhuizen, Niels, de Jong, Wim, Dréau, Anaïs, and Hanson, Ronald
Subjects: Quantum Physics
Abstract: We report on the realization and verification of quantum entanglement between an NV electron spin qubit and a telecom-band photonic qubit. First we generate entanglement between the spin qubit and a 637 nm photonic time-bin qubit, followed by photonic quantum frequency conversion that transfers the entanglement to a 1588 nm photon. We characterize the resulting state by correlation measurements in different bases and find a lower bound to the Bell state fidelity of F = 0.77 +/- 0.03. This result presents an important step towards extending quantum networks via optical fiber infrastructure.
Published: 2019
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3. A TdT-Driven Amplification Loop Increases CRISPR-Cas12a DNA Detection Levels

Author: Zwerus, Jordy Theodoor, primary, Berghuis, Nicole F., additional, Jacques, Jeroen M., additional, Mars-Groenendijk, Roos, additional, Busker, Ruud W., additional, Pauw, Armand, additional, de Jong, Ad L., additional, and Leeuwen, Hans, additional
Published: 2024
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4. Rapid and reliable discrimination between Shigella species and Escherichia coli using MALDI-TOF mass spectrometry

Author: Paauw, Armand, Jonker, Debby, Roeselers, Guus, Heng, Jonathan M.E., Mars-Groenendijk, Roos H., Trip, Hein, Molhoek, E. Margo, Jansen, Hugo-Jan, van der Plas, Jan, de Jong, Ad L., Majchrzykiewicz-Koehorst, Joanna A., and Speksnijder, Arjen G.C.L.
Published: 2015
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5. Rapid and generic identification of influenza A and other respiratory viruses with mass spectrometry

Author: Majchrzykiewicz-Koehorst, Joanna A., Heikens, Esther, Trip, Hein, Hulst, Albert G., de Jong, Ad L., Viveen, Marco C., Sedee, Norbert J.A., van der Plas, Jan, Coenjaerts, Frank E.J., and Paauw, Armand
Published: 2015
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6. Can Soldiers Combine Swords and Ploughshares? The Construction of the Warrior–Peacekeeper Role Identity Survey (WPRIS)

Author: Broesder, Wendy A., den Buijs, Tessa P. Op, Vogelaar, Ad L. W., and Euwema, Martin C.
Published: 2015

7. Frequency stabilized HeNe gas laser with 3.5 mW from a single mode

Author: Ellis, Jonathan D., Voigt, Dirk, Spronck, Jo W., Verlaan, Ad L., and Munnig Schmidt, Robert H.
Published: 2012
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8. Epidemiology, hospitalization cost, and socioeconomic burden of COVID-19 in Romania

Author: Laszlo Lorenzovici, Sz��kely, Andrea, Kal��, Zolt��n, Farkas-R��duly, Szabolcs, Ad��l Gy��ngyv��r Nagy, Nyulas, Bernadett, Precup, Andreea Mihaela, Pavel, Mihai Laurentiu, Gheorghe, Maria, Calcan, Alexandru, Tar, Gy��ngyi, Adam, Ovidiu, Bradacs, Aliz, Briciu, Violeta Tincuta, Florescu, Simin Aysel, Ianosi, Edith Simona, G��rbovan, Ovidiu, Siriopol, Dimitrie Cristian, and Vok��, Zolt��n
Published: 2022
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9. [How 'Brave Doctors' quit useless care]

Author: Ad L M, Bakx
Subjects: Male, General Practitioners, Ambulatory Care, Humans, Female, Netherlands
Abstract: In The Netherlands, since 2012, the movement 'DappereDokters' ('Brave Doctors') is trying to change maximum medical care into optimal medical care. Which means only to provide care that improves individual health. General practioners (GPs) and medical specialists (MSs) together form the base. From each point of view and experience, they want to realize this goal. Ending nonsensical care in hospitals, improving collaboration between GPs and MSs, shared decision making by patients and his or her doctors, combined with an open mind and critical attitude towards one's own professional way of treating patients are important aspects in the philosophy of this movement. Many initiatives and ideas have been raised during these years, including reduction of outpatient care. (Nationwide) protocols between GPs and MSs have been implemented. New (digital) technology will strengthen optimal treatment. Financial obstacles should be demolished. The movement 'DappereDokters' is really alive and kicking.
Published: 2021

10. Az okostelefon- ��s k��z��ss��gim��dia-addikci�� hat��sai a munka vil��g��ban

Author: Simon, Ad��l Csenge, M��sz��ros, No��mi Zsuzsanna, Pachner, Orsolya Csilla, and Kiss, Orhidea Edith
Abstract: Alkalmazott Pszichol��gia, vol. 21. issue 2. ISSN 1419-872X
Published: 2021
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11. Forensic identification of neat ricin and of ricin from crude castor bean extracts by mass spectrometry

Author: Fredriksson, Sten-Ake, Hulst, Albert G., Artursson, Elisabeth, de Jong, Ad. L., Nilsson, Calle, and van Baar, Ben L.M.
Subjects: Chemistry, Analytic -- Research, Ricin -- Identification and classification, Ricin -- Research, Chemistry
Abstract: The protein toxin ricin, which originates from the seeds of Ricinus communis plants, has been the subject of increased interest, due to its potential terrorist use. Exceptionally, this toxin is also subject to the Chemical Weapons Convention. In this paper, it is shown that mass spectrometry can be used to unambiguously verify the presence of ricin in crude toxin preparations. It is demonstrated that MALDI MS can be used for screening, either by direct analysis or by trypsin digestion and peptide mapping. Purified ricin from several varieties of R. communis was characterized by LC-ES MS(/MS). A crude ricin preparation from a single bean was similarly characterized. An LC method was set up with product ion MS/MS detection of selected marker peptides specific for riein: T5, T7, T11, T12, and T13 from the A-chain and T3, T5, T14, T19, and T20 from the B-chain. This method was then used to unambiguously identify ricin in a crude preparation of ricin. The MALDI MS molecular weight analysis and the marker peptides LC-ES MS/MS analysis give a forensic level of identification of ricin when combined with activity testing.
Published: 2005

12. Entanglement between a Diamond Spin Qubit and a Photonic Time-Bin Qubit at Telecom Wavelength

Author: A. Dréau, Sophie Hermans, Dirk Voigt, Wim de Jong, Anna Tchebotareva, Niels Dijkhuizen, Peter C. Humphreys, Peter J. Harmsma, Lun K. Cheng, Ronald Hanson, Ad L. Verlaan, Delft University of Technology (TU Delft), The Netherlands Organisation for Applied Scientific Research (TNO), Kavli Institute of Nanosciences [Delft] (KI-NANO), Laboratoire Charles Coulomb (L2C), and Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS)
Subjects: Photon, Nonlinear optics, Photon pairs, FOS: Physical sciences, General Physics and Astronomy, Physics::Optics, High Tech Systems & Materials, Quantum entanglement, 01 natural sciences, Spontaneous parametric down-conversion, [PHYS.QPHY]Physics [physics]/Quantum Physics [quant-ph], Quantum mechanics, 0103 physical sciences, 010306 general physics, Spin (physics), Physics, Quantum network, Bell state, Quantum Physics, Optical quantum information processing, Industrial Innovation, business.industry, Parametric down-conversion, Quantum networks, Communication networks, Qubit, Photonics, Electronics, Quantum Physics (quant-ph), business
Abstract: We report on the realization and verification of quantum entanglement between a nitrogen-vacancy electron spin qubit and a telecom-band photonic qubit. First we generate entanglement between the spin qubit and a 637 nm photonic time-bin qubit, followed by photonic quantum frequency conversion that transfers the entanglement to a 1588 nm photon. We characterize the resulting state by correlation measurements in different bases and find a lower bound to the Bell state fidelity of ≥0.77±0.03. This result presents an important step towards extending quantum networks via optical fiber infrastructure.
Published: 2019

13. Chemostat-based proteomic analysis of toluene-affected Pseudomonas putida S12

Author: Volkers, Rita J. M., de Jong, Ad L., Hulst, Albert G., van Baar, Ben L. M., de Bont, Jan A. M., and Wery, Jan
Published: 2006

14. Eluent jet interface for combining capillary liquid flows with electron impact mass spectrometry

Author: Kientz, Charles E., Hulst, Albert G., Jong, Ad L. de, and Wils, Eric R.J.
Subjects: Mass spectrometry -- Methods, Gas chromatography -- Methods, Surface chemistry -- Analysis, Chemistry
Published: 1996

15. Characterisation of botulinum toxins type C, D, E, and F by matrix-assisted laser desorption ionisation and electrospray mass spectrometry

Author: van Baar, Ben L.M, Hulst, Albert G, de Jong, Ad L, and Wils, Eric R.J
Published: 2004
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16. Entanglement between a Diamond Spin Qubit and a Photonic Time-Bin Qubit at Telecom Wavelength

Author: Tchebotareva, A. (author), Hermans, S.L.N. (author), Humphreys, P.C. (author), Voigt, D. (author), Harmsma, P.J. (author), Cheng, Lun K. (author), Verlaan, Ad L. (author), Dijkhuizen, Niels (author), De Jong, Wim (author), Dréau, A.E. (author), Hanson, R. (author), Tchebotareva, A. (author), Hermans, S.L.N. (author), Humphreys, P.C. (author), Voigt, D. (author), Harmsma, P.J. (author), Cheng, Lun K. (author), Verlaan, Ad L. (author), Dijkhuizen, Niels (author), De Jong, Wim (author), Dréau, A.E. (author), and Hanson, R. (author)
Abstract: We report on the realization and verification of quantum entanglement between a nitrogen-vacancy electron spin qubit and a telecom-band photonic qubit. First we generate entanglement between the spin qubit and a 637 nm photonic time-bin qubit, followed by photonic quantum frequency conversion that transfers the entanglement to a 1588 nm photon. We characterize the resulting state by correlation measurements in different bases and find a lower bound to the Bell state fidelity of ≥0.77±0.03. This result presents an important step towards extending quantum networks via optical fiber infrastructure., BUS/General, QuTech, QID/Hanson Lab, Business Development, QN/Hanson Lab
Published: 2019
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17. Evaluation of the performance of Dutch Lipid Clinic Network score in an Italian FH population: The LIPIGEN study

Author: Casula, M. a., B, Be, Olmastroni, E. a., Pirillo, A. c., Catapano, D, A. L. b., D, Jemail, Author, Lipigen, Group, Averna, M. g., Bertolini, S. h., Calandra, S. i., Tarugi, P. i., Pellegatta, F. k., Angelico, F. f., Bartuli, A. l., Biasucci, G. m., Biolo, G. n., Bonanni, L. o., Bonomo, K. p., Borghi, C. q., Bossi, A. C. r., Branchi, A. s., Carubbi, F. t., Cipollone, F. u., Citroni, N. v., Federici, M. w., Ferri, C. x., Fiorenza, A. M. y., Giaccari, A. z., Giorgino, Aa, F., Guardamagna, Ab, O., Iannuzzi, Ac, A., Iughetti, Ad, L., Lupattelli, Ae, G., Lupi, Af, A., Mandraffino, Giuseppe, Ag, G., Marcucci, Ah, R., Maroni, Ai, L., Miccoli, Aj, R., Mombelli, Ak, G., Muntoni, Al, S., Pecchioli, Am, V., Pederiva, An, C., Pipolo, Ao, A., Pisciotta, Ap, L., Pujia, Aq, A., Purrello, Ar, F., Repetti, As, E., Rubba, At, P., Sabbà, Au, C., Sampietro, Av, T., Sarzani, Aw, R., Tagliabue, M. P., Ax, Trenti, Ay, C., Vigna, G. B., Az, Werba, J. P., Ba, Zambon, Bb, S., Zenti, M. G., Bc, Minicocci, I. f., Noto, D. g., Fortunato, Bd, G., Banderali, An, G., Benso, Ax, A., Bigolin, Bb, P., Bonora, Bc, E., Bruzzi, Ad, P., Bucci, M. u., Buonuomo, P. S. l., Capra, M. E. m., Cardolini, I. w., Cefalù, B. g., Cervelli, N. x., Chiariello, Ac, G., Cocci, Aw, G., Colombo, E. y., Cremonini, A. L., Ap, D'Addato, S. q., D'Erasmo, L. f., Dal, Pino, Av, B., Sanctis, De, Ab, L., Vita, De, Ao, E., Del, Ben, M. f., Costanzo, Di, A. f., Taranto, Di, M. D., Bd, Fasano, Ay, T., Gentile, As, L., At, M., Ghirardello, Az, O., Grigore, L. k., Lussu, Al, M., Meregalli, G. r., Moffa, S. z., Montalcini, Aq, T., Morgia, Nascimbeni, F. t., Pasta, A. h., Pavanello, Ak, C., Saitta, Antonino, Ag, A., Scicali, Ar, R., Siepi, Ae, D., Spagnolli, W. v., Spina, R. g., Sticchi, Ah, E., Suppressa, Au, P., Vigo, Ba, L., Vinci, P. n., Manzato, Bf, E., Tragni, Be, E., Zampoleri, Bg, V., Casula, Manuela, Olmastroni, Elena, Pirillo, Angela, Catapano, Alberico Luigi, Arca, Marcello, Averna, Maurizio, Bertolini, Stefano, Calandra, Sebastiano, Tarugi, Patrizia, Pellegatta, Fabio, Angelico, Francesco, Bartuli, Andrea, Biasucci, Giacomo, Biolo, Gianni, Bonanni, Luca, Bonomo, Katia, Borghi, Claudio, Bossi, Antonio Carlo, Branchi, Adriana, Carubbi, Francesca, Cipollone, Francesco, Citroni, Nadia, Federici, Massimo, Ferri, Claudio, Fiorenza, Anna Maria, Giaccari, Andrea, Giorgino, Francesco, Guardamagna, Ornella, Iannuzzi, Arcangelo, Iughetti, Lorenzo, Lupattelli, Graziana, Lupi, Alessandro, Mandraffino, Giuseppe, Marcucci, Rossella, Maroni, Lorenzo, Miccoli, Roberto, Mombelli, Giuliana, Muntoni, Sandro, Pecchioli, Valerio, Pederiva, Cristina, Pipolo, Antonio, Pisciotta, Livia, Pujia, Arturo, Purrello, Francesco, Repetti, Elena, Rubba, Paolo, Sabbà, Carlo, Sampietro, Tiziana, Sarzani, Riccardo, Tagliabue, Milena Paola, Trenti, Chiara, Vigna, Giovanni Battista, Werba, Josè Pablo, Zambon, Sabina, Zenti, Maria Grazia, Minicocci, Ilenia, Noto, Davide, Fortunato, Giuliana, Banderali, Giuseppe, Benso, Andrea, Bigolin, Paola, Bonora, Enzo, Bruzzi, Patrizia, Bucci, Marco, Buonuomo, Paola Sabrina, Capra, Maria Elena, Cardolini, Iri, Cefalù, Baldassarre, Cervelli, Nazzareno, Chiariello, Giuseppe, Cocci, Guido, Colombo, Emanuela, Cremonini, Anna Laura, D'Addato, Sergio, D'Erasmo, Laura, Dal Pino, Beatrice, De Sanctis, Luisa, De Vita, Emanuele, Del Ben, Maria, Di Costanzo, Alessia, Di Taranto, Maria Donata, Fasano, Tommaso, Gentile, Luigi, Gentile, Marco, Ghirardello, Omar, Grigore, Liliana, Lussu, Milena, Meregalli, Giancarla, Moffa, Simona, Montalcini, Tiziana, Morgia, Valeria, Nascimbeni, Fabio, Pasta, Andrea, Pavanello, Chiara, Saitta, Antonino, Scicali, Roberto, Siepi, Donatella, Spagnolli, Walter, Spina, Rossella, Sticchi, Elena, Suppressa, Patrizia, Vigo, Lorenzo, Vinci, Pierandrea, Manzato, Enzo, Tragni, Elena, Zampoleri, Veronica, D'addato, Sergio, D'erasmo, Laura, Casula, M, Olmastroni, E, Pirillo, A, Catapano, A, Averna, M, Noto, D, Cefalu, B, and Spina, R
Subjects: Male, Settore MED/09 - Medicina Interna, Genetic testing, Predictive Value of Test, Familial hypercholesterolemia, 030204 cardiovascular system & hematology, Decision Support Technique, 0302 clinical medicine, Retrospective Studie, Risk Factors, Cardiovascular Disease, Genetic Marker, Prospective Studies, 030212 general & internal medicine, Age of Onset, Prospective cohort study, education.field_of_study, medicine.diagnostic_test, Middle Aged, Dutch Lipid Clinic Network score, Adult, Biomarkers, Cardiovascular Diseases, Cholesterol, LDL, Female, Genetic Markers, Genetic Predisposition to Disease, Genetic Testing, Humans, Hyperlipoproteinemia Type II, Italy, Phenotype, Predictive Value of Tests, Reproducibility of Results, Retrospective Studies, Risk Assessment, Decision Support Techniques, Mutation, 3. Good health, Cholesterol, Cardiology and Cardiovascular Medicine, Human, medicine.medical_specialty, Population, Reproducibility of Result, Physical examination, LDL, 03 medical and health sciences, Internal medicine, medicine, First-degree relatives, education, business.industry, Risk Factor, Settore MED/13 - ENDOCRINOLOGIA, Biomarker, medicine.disease, Missing data, Dutch Lipid Clinic Network score, Familial hypercholesterolemia, Genetic testing, Prospective Studie, Age of onset, business
Abstract: Background and aims Familial hypercholesterolemia (FH) is an inherited disorder characterized by high levels of blood cholesterol from birth and premature coronary heart disease. Thus, the identification of FH patients is crucial to prevent or delay the onset of cardiovascular events, and the availability of a tool helping with the diagnosis in the setting of general medicine is essential to improve FH patient identification. Methods This study evaluated the performance of the Dutch Lipid Clinic Network (DLCN) score in FH patients enrolled in the LIPIGEN study, an Italian integrated network aimed at improving the identification of patients with genetic dyslipidaemias, including FH. Results The DLCN score was applied on a sample of 1377 adults (mean age 42.9 ± 14.2 years) with genetic diagnosis of FH, resulting in 28.5% of the sample classified as probable FH and 37.9% as classified definite FH. Among these subjects, 43.4% had at least one missing data out of 8, and about 10.0% had 4 missing data or more. When analyzed based on the type of missing data, a higher percentage of subjects with at least 1 missing data in the clinical history or physical examination was classified as possible FH (DLCN score 3–5). We also found that using real or estimated pre-treatment LDL-C levels may significantly modify the DLCN score. Conclusions Although the DLCN score is a useful tool for physicians in the diagnosis of FH, it may be limited by the complexity to retrieve all the essential information, suggesting a crucial role of the clinical judgement in the identification of FH subjects.
Published: 2018

18. Entanglement between a Diamond Spin Qubit and a Photonic Time-Bin Qubit at Telecom Wavelength

Author: Tchebotareva, Anna, primary, Hermans, Sophie L. N., additional, Humphreys, Peter C., additional, Voigt, Dirk, additional, Harmsma, Peter J., additional, Cheng, Lun K., additional, Verlaan, Ad L., additional, Dijkhuizen, Niels, additional, de Jong, Wim, additional, Dréau, Anaïs, additional, and Hanson, Ronald, additional
Published: 2019
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19. Reliable identification at the species level of Brucella isolates with MALDI-TOF-MS

Author: Lista Florigio, Reubsaet Frans AG, De Santis Riccardo, Parchen Rene R, de Jong Ad L, Kieboom Jasper, van der Laaken Anton L, Voskamp-Visser Ingrid AI, Fillo Silvia, Jansen Hugo-Jan, Van der Plas Jan, and Paauw Armand
Subjects: Microbiology, QR1-502
Abstract: Abstract Background The genus Brucella contains highly infectious species that are classified as biological threat agents. The timely detection and identification of the microorganism involved is essential for an effective response not only to biological warfare attacks but also to natural outbreaks. Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS) is a rapid method for the analysis of biological samples. The advantages of this method, compared to conventional techniques, are rapidity, cost-effectiveness, accuracy and suitability for the high-throughput identification of bacteria. Discrepancies between taxonomy and genetic relatedness on the species and biovar level complicate the development of detection and identification assays. Results In this study, the accurate identification of Brucella species using MALDI-TOF-MS was achieved by constructing a Brucella reference library based on multilocus variable-number tandem repeat analysis (MLVA) data. By comparing MS-spectra from Brucella species against a custom-made MALDI-TOF-MS reference library, MALDI-TOF-MS could be used as a rapid identification method for Brucella species. In this way, 99.3% of the 152 isolates tested were identified at the species level, and B. suis biovar 1 and 2 were identified at the level of their biovar. This result demonstrates that for Brucella, even minimal genomic differences between these serovars translate to specific proteomic differences. Conclusions MALDI-TOF-MS can be developed into a fast and reliable identification method for genetically highly related species when potential taxonomic and genetic inconsistencies are taken into consideration during the generation of the reference library.
Published: 2011
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20. Characterisation of botulinum toxins type A and B, by matrix-assisted laser desorption ionisation and electrospray mass spectrometry

Author: van Baar, Ben L.M, Hulst, Albert G, de Jong, Ad L, and Wils, Eric R.J
Published: 2002
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21. Effects of the new calcium antagonist mibefradil (Ro 40-5967) on exercise duration in patients with chronic stable angina pectoris: A multicenter, placebo-controlled study

Author: Bakx, Ad L. M., van der Wall, Ernst E., Braun, Shimon, Emanuelsson, Hakan, Bruschke, Albert V.G., and Kobrin, Isaac
Published: 1995

22. High accuracy absolute distance metrology

Author: Bas L. Swinkels, Nandini Bhattacharya, Ad L. Verlaan, and Joseph J. M. Braat
Subjects: Physics, business.industry, Aperture synthesis, Laser, Sweep frequency response analysis, law.invention, Metrology, Finesse, Interferometry, Optics, law, Calibration, Darwin (spacecraft), business
Abstract: One of ESA’s future missions is the Darwin Space Interferometer, which aims to detect planets around nearby stars using optical aperture synthesis with free-flying telescopes. Since this involves interfering white (infra-red) light over large distances, the mission is not possible without a complex metrology system that monitors various speeds, distances and angles between the satellites. One of its sub-systems should measure absolute distances with an accuracy of around 70 micrometer over distances up to 250 meter. To enable such measurements, we are investigating a technique called frequency sweeping interferometry, in which a single laser is swept over a large known frequency range. Central to our approach is the use of a very stable, high finesse Fabry-P´erot cavity, to which the laser is stabilized at the endpoints of the frequency sweep. We will discuss the optical set-up, the control system that controls the fast sweeping, the calibration and the data analysis. We tested the system using long fibers and achieved a repeatability of 50 micrometers at a distance of 55 meters. We conclude with some recommendations for further improvements and the adaption for use in space.
Published: 2017

23. Measurement of matter-antimatter differences in beauty baryon decays

Author: Aaij, R. an, Adeva, Am, B., Adinolfi, Av, M., Ajaltouni, Z. e., Akar, S. f., Albrecht, J. j., Alessio, An, F., Alexander, Ba, M., Ali, Aq, S., Alkhazov, Ae, G., Alvarez, Cartelle, Bc, P., Alves, A. A., Bg, Jr., Amato, S. b., Amerio, S. w., Amhis, Y. g., Ao, L., Anderlini, L. r., Andreassi, Ao, G., Andreotti, M. q., Andrews, Bx, J. E., Bh, Appleby, R. B., Bd, Archilli, Aq, F., D'Argent, P. l., Arnau, Romeu, Artamonov, J. f., Ak, A., Artuso, Bi, M., Aslanides, E. f., Auriemma, G. z., Baalouch, M. e., Babuschkin, Bd, I., Bachmann, S. l., Back, J. J., Ax, Badalov, Al, A., Baesso, Bj, C., Baker, Bc, S., Baldini, W. q., Barlow, R. J., Bd, Barschel, An, C., Barsuk, S. g., Barter, An, W., Baszczyk, Aa, M., Batozskaya, Ac, V., Batsukh, Bi, B., Battista, Ao, V., Bay, Ao, A., Beaucourt, L. d., Beddow, Ba, J., Bedeschi, F. x., Bediaga, I. a., Bel, L. J., Aq, Bellee, Belloli, N. u., Belous, Bz, Ak, K., Belyaev, Af, I., Ben-Haim, E. h., Bencivenni, G. s., Benson, Benton, Av, J., Berezhnoy, Ag, A., Bernet, Ap, R., Bertolin, A. w., Betti, F. o., Bettler, M. -O., An, Van, Beuzekom, Aq, M., Bezshyiko, Ap, I., Bifani, Au, S., Billoir, P. h., Bird, Bd, T., Birnkraut, A. j., Bitadze, Bd, A., Bizzeti, A. r., Blake, Cl, Ax, T., Blanc, Ao, F., Blouw, J. k., Blusk, Bi, S., Bocci, V. z., Boettcher, Bf, T., Bondar, Aj, A., Ae, N., Bonivento, An, Borgheresi, W. p., A. u., Bz, Borghi, Bd, S., Borisyak, Ai, M., Borsato, Am, M., Bossu, F. g., Boubdir, M. i., Bowcock, T. J. V., Bb, Bowen, Ap, E., Bozzi, C. q., Braun, An, Britsch, S. l., Britton, M. l., Bi, T., Brodzicka, Bd, J., Buchanan, Av, E., Burr, Bd, C., Bursche, A. b., Buytaert, An, J., Cadeddu, S. p., Calabrese, R. q., Calvi, Bx, M. u., Bz, Calvo, Gomez, Al, M., Camboni, Cd, Campana, P. s., Campora, Perez, An, D., D. H., An, Capriotti, Bd, L., Carbone, A. o., Carboni, Bv, G. y., Ca, Cardinale, R. t., Cardini, By, Carniti, A. p., P. u., Bz, Carson, Az, L., Carvalho, Akiba, Casse, K. b., Bb, G., Cassina, L. u., Castillo, Garcia, Cattaneo, An, M., Cauet, C. j., Cavallero, G. t., Cenci, R. x., Charles, Ck, Charpentier, M. h., An, P., Chatzikonstantinidis, Au, G., Chefdeville, M. d., Chen, Cheung, S. -F., Be, Chobanova, Am, V., Chrzaszcz, Cid, Vidal, Am, X., Ciezarek, Aq, G., Clarke, P. E. L., Az, Clemencic, Cliff, H. V., Aw, Closier, Coco, Bg, V., Cogan, J. f., Cogneras, E. e., Cogoni, V. p., An, Bw, Cojocariu, Ad, L., Collazuol, G. w., Collins, Cf, Comerma-Montells, A. l., Contu, An, A., Cook, Av, A., Coquereau, Al, S., Corti, An, G., Corvo, M. q., Costa, Sobral, C. M., Ax, Couturier, An, B., Cowan, G. A., Az, Craik, D. C., Az, Crocombe, Ax, A., Cruz, Torres, Bj, M., Cunliffe, Currie, Bc, R., D'Ambrosio, Da Cunha Marinho, Dall'Occo, F. b., Aq, E., Dalseno, David, P. N. Y., Aq, Davis, Bg, A., De Aguiar Francisco, O. b., Bruyn, De, K. f., Capua, De, Cian, De, M. l., Miranda, De, J. M. a., Paula, De, L. b., Serio, De, M. n., Bu, Simone, De, Dean, P. s., C. -T., Ba, Decamp, D. d., Deckenhoff, M. j., Del, Buono, Demmer, L. h., Derkach, M. j., Ai, D., Deschamps, O. e., Dettori, Dey, B. v., Canto, Di, Dijkstra, An, H., Dordei, Dorigo, Ao, M., Dosil, Suárez, Am, A., Dovbnya, As, A., Dreimanis, Bb, K., Dufour, Aq, L., Dujany, Bd, G., Dungs, An, K., Durante, Dzhelyadin, Ak, R., Dziurda, Dzyuba, Ae, A., Déléage, N. d., Easo, Ay, S., Ebert, Az, M., Egede, Bc, U., Egorychev, Af, V., Eidelman, Aj, S., Eisenhardt, Az, S., Eitschberger, U. j., Ekelhof, R. j., Eklund, Ba, L., Elsasser, Ap, C., Ely, Esen, S. l., Evans, H. M., Aw, Be, T., Falabella, A. o., Farley, Au, N., Farry, Bb, S., Fay, Bb, R., Fazzini, D. u., Ferguson, Bz, Az, D., Fernandez, Albor, Fernandez, Prieto, Ferrari, F. o., Ferreira, Rodrigues, Ferro-Luzzi, F. a., Filippov, Ah, S., Fini, R. A. n., Fiore, M. q., Fiorini, Bx, M. q., Bx, Firlej, Ab, M., Fitzpatrick, Ao, C., Fiutowski, Ab, T., Fleuret, F. g., Fohl, Bs, Fontana, M. p., Fontanelli, An, F. t., By, Forshaw, D. C., Bi, Forty, An, R., Franco, Lima, Bb, V., Frank, Frei, J. v., Fu, Furfaro, Ch, E. y., Ca, Färber, Gallas, Torreira, Galli, D. o., Gallorini, Bv, Gambetta, S. w., Gandelman, M. b., Gandini, Be, P., Gao, Y. c., Garcia, Martin, L. M., Bp, Garcia, Pardiñas, Am, J., Garra, Tico, Aw, J., Garrido, Al, L., Garsed, P. J., Aw, Gascon, Al, D., Gaspar, Gavardi, L. j., Gazzoni, G. e., Gerick, D. l., Gersabeck, E. l., Gersabeck, Bd, M., Gershon, Ghez, P. d., Gianì, Ao, S., Gibson, Aw, V., Girard, O. G., Ao, Giubega, Gizdov, Az, K., Gligorov, V. V. h., Golubkov, Af, D., Golutvin, Gomes, Bc, A. a., Br, Gorelov, I. V., Ag, Gotti, C. u., Grabalosa, Gándara, M. e., Graciani, Diaz, Al, R., Granado, Cardoso, L. A., An, Graugés, Al, E., Graverini, Graziani, G. r., Grecu, Ad, A., Griffth, Au, P., Grillo, L. u., An, Bz, Gruberg, Cazon, B. R., Be, Grünberg, Bn, O., Gushchin, Ah, E., Guz, Ak, Y., Gys, An, T., Göbel, Hadavizadeh, Hadjivasiliou, C. e., Haefeli, Haen, Haines, S. C., Aw, Hall, Hamilton, Bh, B., Han, X. l., Hansmann-Menzemer, S. l., Harnew, Be, N., S. T., Av, Harrison, Hatch, Bk, J., Head, Ao, T., Heister, A. i., Hennessy, Henrard, P. e., Henry, L. h., Hernando, Morata, J. A., Am, Van, Herwijnen, An, E., Heß, Bn, M., Hicheur, A. b., Hill, Be, D., Hombach, Hopchev, Ao, H., Hulsbergen, Aq, W., Humair, Bc, T., Hushchyn, Hussain, Hutchcroft, Bb, D., Idzik, Ilten, Bf, P., Jacobsson, Jaeger, A. l., Jalocha, Be, J., Jans, Jawahery, Bh, A., Jiang, F. c., John, Be, M., Johnson, Jones, C. R., Aw, Joram, Jost, Jurik, Bi, N., Kandybei, As, S., Kanso, W. f., Karacson, Kariuki, J. M., Av, Karodia, Ba, S., Kecke, M. l., Kelsey, Kenyon, I. R., Au, Kenzie, Aw, M., Ketel, Ar, T., Khairullin, Ai, E., Khanji, B. u., Khurewathanakul, Kirn, T. i., Klaver, Klimaszewski, Ac, K., Koliiev, At, S., Kolpin, M. l., Komarov, Ao, I., Koopman, R. F., Ar, Koppenburg, Aq, P., Kozachuk, Kozeiha, M. e., Kravchuk, Ah, L., Kreplin, K. l., Kreps, Ax, M., Krokovny, Aj, P., Kruse, F. j., Krzemien, Ac, W., Kucewicz, Aa, W., Kucharczyk, Cc, Kudryavtsev, Aj, V., Kuonen, A. K., Ao, Kurek, Kvaratskheliya, Af, T., Lacarrere, An, Lafferty, Lai, A. p., Lambert, Lanfranchi, G. s., Langenbruch, C. i., Latham, Lazzeroni, Au, C., Gac, Le, R. f., Van, Leerdam, Aq, J., Lees, J. -P. d., Leflat, Lefrançois, An, Lefèvre, J. g., Lemaitre, R. e., Lemos, Cid, Am, E., Leroy, O. f., Lesiak, Aa, T., Leverington, B. l., Y. g., Li, Likhomanenko, Ai, T., Lindner, Bo, Linn, Lionetto, Ap, F., Liu, B. p., Liu, X. c., Loh, Ax, D., Longstaff, Ba, I., Lopes, J. H. b., Lucchesi, D. w., Lucio, Martinez, Luo, Az, H., Lupato, A. w., Luppi, E. q., Lupton, Bx, Be, O., Lusiani, A. x., Lyu, Bk, X., Machefert, F. g., Maciuc, Ad, F., Maev, Ae, O., Maguire, Bd, K., Malde, Be, S., Malinin, Bo, A., Maltsev, Aj, T., Manca, G. g., Mancinelli, G. f., Manning, Bi, P., Maratas, J. e., Marchand, Cm, Marconi, J. F. d., U. o., Marin, Benito, Al, C., Marino, P. x., Marks, Ck, Martellotti, J. l., Martin, G. z., Martinelli, M. f., Martinez, Santos, Am, D., Martinez, Vidal, Bp, F., Martins, Tostes, Massacrier, D. b., Massafferri, L. M. g., Matev, A. a., Mathad, Mathe, An, Z., Matteuzzi, C. u., Mauri, Ap, A., Maurin, Ao, B., Mazurov, Au, A., Mccann, Bc, M., Mccarthy, Au, J., Mcnab, Mcnulty, R. m., Meadows, Bg, B., Meier, F. j., Meissner, M. l., Melnychuk, Ac, D., Merk, Merli, A. v., Michielin, Ch, Milanes, E. w., D. A., Bm, Minard, M. -N. d., Mitzel, D. S. l., Mogini, A. h., Molina, Rodriguez, Bj, J., Monroy, I. A., Bm, Monteil, S. e., Morandin, M. w., Morawski, Ab, P., Mordà, A. f., Morello, M. J. x., Moron, Ck, Ab, J., Morris, A. B., Az, Mountain, Bi, R., Muheim, Az, F., Mulder, Mussini, M. o., Müller, Bd, D., Müller, J. j., Ap, K., Müller, V. j., Naik, Av, P., Nakada, Nandakumar, Ay, R., Nandi, Be, A., Nasteva, I. b., Needham, Neri, N. v., Neubert, S. l., Neufeld, An, N., Neuner, M. l., Nguyen, A. D., Ao, Nguyen-Mau, Nieswand, Ce, Niet, S. i., Nikitin, R. j., Ag, N., Nikodem, T. l., Novoselov, O'Hanlon, D. P., Ax, Oblakowska-Mucha, Ab, A., Obraztsov, Ak, V., Ogilvy, S. s., Oldeman, Aw, R., Onderwater, C. J. G., Bq, Otalora, Goicochea, Otto, J. M. b., Owen, Ap, P., Oyanguren, Bp, A., Pais, P. R., Ao, Palano, A. n., Palombo, Bu, F. v., Ch, Palutan, M. s., Panman, Papanestis, Ay, A., Pappagallo, M. n., Pappalardo, Bu, L. L. q., Bx, Parker, Bh, W., Parkes, Passaleva, G. r., Pastore, A. n., Patel, Bu, G. D., Bb, Patel, Patrignani, C. o., Pearce, Bv, Pellegrino, Bd, Aq, A., Penso, G. z., Pepe, Altarelli, Perazzini, An, S., Perret, P. e., Pescatore, Au, L., Petridis, Av, K., Petrolini, A. t., Petrov, By, Petruzzo, M. v., Picatoste, Olloqui, Pietrzyk, B. d., Pikies, Pinci, D. z., Pistone, A. t., Piucci, A. l., Playfer, Plo, Casasus, Poikela, Polci, F. h., Poluektov, Polyakov, Ax, Bi, I., Polycarpo, E. b., Pomery, G. J., Av, Popov, Popov, D. k., Popovici, An, Ad, B., Poslavskii, Ak, S., Potterat, C. b., Price, J. D., Bb, Prisciandaro, Pritchard, Bb, A., Prouve, Av, C., Pugatch, At, V., Puig, Navarro, Punzi, G. x., Qian, Cg, Be, W., Quagliani, R. g., Rachwal, Av, Aa, B., Rademacker, J. H., Av, Rama, M. x., Ramos, Pernas, Rangel, M. S. b., Raniuk, As, I., Raven, Ar, G., Redi, Bc, F., Reichert, S. j., Dos, Reis, A. C. a., Remon, Alepuz, Bp, C., Renaudin, V. g., Ricciardi, Richards, Av, S., Rihl, Rinnert, Rives, Molina, Al, V., Robbe, P. g., Rodrigues, An, Rodrigues, A. B. a., Bg, E., Rodriguez, Lopez, J. A., Bm, Rodriguez, Perez, Bd, P., Rogozhnikov, Ai, A., Roiser, Romanovskiy, Romero, Vidal, Ronayne, J. W. m., Rotondo, M. s., Rudolph, M. S., Bi, Ruf, Ruiz, Valls, Bp, P., Saborido, Silva, J. J., Am, Sadykhov, Af, E., Sagidova, Saitta, B. p., Salustino, Guimaraes, V. b., Sanchez, Mayordomo, Sanmartin, Sedes, Santacesaria, R. z., Santamarina, Rios, Am, C., Santimaria, M. s., Santovetti, E. y., Sarti, Ca, A. s., Cb, Satriano, C. z., Satta, Cj, Saunders, A. y., D. M., Av, Savrina, Schael, Ag, Schellenberg, S. i., Schiller, M. j., Schindler, Schlupp, M. j., Schmelling, M. k., Schmelzer, T. j., Schmidt, Schneider, Ao, O., Schopper, Schubert, K. j., Schubiger, Schune, M. -H. g., Schwemmer, Sciascia, B. s., Sciubba, A. z., Semennikov, Cb, Af, A., Sergi, Serra, Ap, N., Serrano, J. f., Sestini, L. w., Seyfert, P. u., Shapkin, Ak, M., Shapoval, Shcheglov, Ae, Y., Shears, Bb, T., Shekhtman, Aj, L., Shevchenko, Bo, V., Shires, A. j., Siddi, B. G. q., Silva, Coutinho, Oliveira, De, Simi, L. S. b., G. w., Cf, Simone, S. n., Sirendi, Bu, Skidmore, Av, N., Skwarnicki, Smith, Bc, E., I. T., Az, Snoek, Aq, H., Sokoloff, M. D., Bg, Soler, F. J. P., Ba, Spaan, B. S. b., Spradlin, B. j., Ba, P., Sridharan, Stagni, Stahl, M. l., Stahl, Stefko, Ao, P., Stefkova, Steinkamp, Ap, O., Stemmle, S. l., Stenyakin, Ak, O., Stevenson, Stoica, Ad, S., Stone, Storaci, Ap, B., Stracka, S. x., Straticiuc, Cg, Ad, M., Straumann, Ap, U., Sun, Bg, L., Sutcliffe, Bc, W., Swientek, Ab, K., Syropoulos, Ar, V., Szczekowski, Ac, M., Szumlak, T'Jampens, S. d., Tayduganov, A. f., Tekampe, T. j., Tellarini, G. q., Teubert, Bx, Thomas, Van, Tilburg, Tilley, M. J., Bc, Tisserand, V. d., Tobin, Tolk, Aw, S., Tomassetti, L. q., Tonelli, Bx, Topp-Joergensen, Toriello, Bi, F., Tournefier, E. d., Tourneur, Trabelsi, Ao, K., Traill, Tran, M. T., Ao, Tresch, Ap, M., Trisovic, Tsaregorodtsev, A. f., Tsopelas, Tully, Aw, A., Tuning, Aq, N., Ukleja, Ac, A., Ustyuzhanin, Uwer, Bo, Vacca, U. l., C. p., Bw, Vagnoni, V. o., Valassi, An, Valat, Valenti, G. o., Vallier, A. g., Vazquez, Gomez, R. s., Vazquez, Regueiro, Am, P., Vecchi, S. q., Van, Veghel, Velthuis, J. J., Av, Veltri, M., Veneziano, Ci, Venkateswaran, Bi, A., Vernet, M. e., Vesterinen, M. l., Viaud, B. g., Vieira, D. a., Vieites, Diaz, Vilasis-Cardona, Al, X., Volkov, Cd, Ag, V., Vollhardt, Voneki, Vorobyev, Voß, Bn, C., Vries, De, J. A., Aq, Vázquez, Sierra, Waldi, Bn, R., Wallace, Ax, C., Wallace, R. m., Walsh, J. x., Wang, Bi, J., Ward, D. R., Aw, Wark, H. M., Bb, Watson, N. K., Au, Websdale, Bc, D., Weiden, Whitehead, Wicht, Ax, J., Wilkinson, Wilkinson, Be, Williams, M. P., Au, Bf, M., Au, T., Wilson, F. F., Ay, Wimberley, Bh, J., Wishahi, J. j., Wislicki, Witek, Wormser, G. g., Wotton, S. A., Aw, Wraight, Ba, K., Wright, Wyllie, Xie, Bl, Y., Xing, Bi, Z., Ao, Z., Yang, Z. c., Yin, Bl, H., Bl, J., Yuan, Aj, X., Yushchenko, Zarebski, K. A., Au, Zavertyaev, M. k., Zhang, Bt, Zhang, L. c., Zhang, Y. g., Bk, Y., Zhelezov, A. l., Zheng, Zhokhov, Zhu, X. c., Zhukov, V. i., Zucchelli, S., Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Corpusculaire - Clermont-Ferrand (LPC), Université Blaise Pascal - Clermont-Ferrand 2 (UBP)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Centre de Physique des Particules de Marseille (CPPM), Aix Marseille Université (AMU)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), LHCB, (Astro)-Particles Physics, Vrije Universiteit Amsterdam, Aaij, R., Adeva, B., Adinolfi, M., Ajaltouni, Z., Akar, S., Albrecht, J., Alessio, F., Alexander, M., Ali, S., Alkhazov, G., Alvarez Cartelle, P., Alves Jr, A.A., Amato, S., Amerio, S., Amhis, Y., An, L., Anderlini, L., Andreassi, G., Andreotti, M., Andrews, J.E., Appleby, R.B., Archilli, F., d'Argent, P., Arnau Romeu, J., Artamonov, A., Artuso, M., Aslanides, E., Auriemma, G., Baalouch, M., Babuschkin, I., Bachmann, S., Back, J.J., Badalov, A., Baesso, C., Baker, S., Baldini, W., Barlow, R.J., Barschel, C., Barsuk, S., Barter, W., Baszczyk, M., Batozskaya, V., Batsukh, B., Battista, V., Bay, A., Beaucourt, L., Beddow, J., Bedeschi, F., Bediaga, I., Bel, L.J., Bellee, V., Belloli, N., Belous, K., Belyaev, I., Ben-Haim, E., Bencivenni, G., Benson, S., Benton, J., Berezhnoy, A., Bernet, R., Bertolin, A., Betti, F., Bettler, M.-O., van Beuzekom, M., Bezshyiko, I., Bifani, S., Billoir, P., Bird, T., Birnkraut, A., Bitadze, A., Bizzeti, A., Blake, T., Blanc, F., Blouw, J., Blusk, S., Bocci, V., Boettcher, T., Bondar, A., Bondar, N., Bonivento, W., Borgheresi, A., Borghi, S., Borisyak, M., Borsato, M., Bossu, F., Boubdir, M., Bowcock, T.J.V., Bowen, E., Bozzi, C., Braun, S., Britsch, M., Britton, T., Brodzicka, J., Buchanan, E., Burr, C., Bursche, A., Buytaert, J., Cadeddu, S., Calabrese, R., Calvi, M., Calvo Gomez, M., Camboni, A., Campana, P., Campora Perez, D., Campora Perez, D.H., Capriotti, L., Carbone, A., Carboni, G., Cardinale, R., Cardini, A., Carniti, P., Carson, L., Carvalho Akiba, K., Casse, G., Cassina, L., Castillo Garcia, L., Cattaneo, M., Cauet, Ch., Cavallero, G., Cenci, R., Charles, M., Charpentier, Ph., Chatzikonstantinidis, G., Chefdeville, M., Chen, S., Cheung, S.-F., Chobanova, V., Chrzaszcz, M., Cid Vidal, X., Ciezarek, G., Clarke, P.E.L., Clemencic, M., Cliff, H.V., Closier, J., Coco, V., Cogan, J., Cogneras, E., Cogoni, V., Cojocariu, L., Collazuol, G., Collins, P., Comerma-Montells, A., Contu, A., Cook, A., Coquereau, S., Corti, G., Corvo, M., Costa Sobral, C.M., Couturier, B., Cowan, G.A., Craik, D.C., Crocombe, A., Cruz Torres, M., Cunliffe, S., Currie, R., D'Ambrosio, C., Da Cunha Marinho, F., Dall'Occo, E., Dalseno, J., David, P.N.Y., Davis, A., De Aguiar Francisco, O., De Bruyn, K., De Capua, S., De Cian, M., De Miranda, J.M., De Paula, L., De Serio, M., De Simone, P., Dean, C.-T., Decamp, D., Deckenhoff, M., Del Buono, L., Demmer, M., Derkach, D., Deschamps, O., Dettori, F., Dey, B., Di Canto, A., Dijkstra, H., Dordei, F., Dorigo, M., Dosil Suárez, A., Dovbnya, A., Dreimanis, K., Dufour, L., Dujany, G., Dungs, K., Durante, P., Dzhelyadin, R., Dziurda, A., Dzyuba, A., Déléage, N., Easo, S., Ebert, M., Egede, U., Egorychev, V., Eidelman, S., Eisenhardt, S., Eitschberger, U., Ekelhof, R., Eklund, L., Elsasser, Ch., Ely, S., Esen, S., Evans, H.M., Evans, T., Falabella, A., Farley, N., Farry, S., Fay, R., Fazzini, D., Ferguson, D., Fernandez Albor, V., Fernandez Prieto, A., Ferrari, F., Ferreira Rodrigues, F., Ferro-Luzzi, M., Filippov, S., Fini, R.A., Fiore, M., Fiorini, M., Firlej, M., Fitzpatrick, C., Fiutowski, T., Fleuret, F., Fohl, K., Fontana, M., Fontanelli, F., Forshaw, D.C., Forty, R., Franco Lima, V., Frank, M., Frei, C., Fu, J., Furfaro, E., Färber, C., Gallas Torreira, A., Galli, D., Gallorini, S., Gambetta, S., Gandelman, M., Gandini, P., Gao, Y., Garcia Martin, L.M., García Pardiñas, J., Garra Tico, J., Garrido, L., Garsed, P.J., Gascon, D., Gaspar, C., Gavardi, L., Gazzoni, G., Gerick, D., Gersabeck, E., Gersabeck, M., Gershon, T., Ghez, Ph., Gianì, S., Gibson, V., Girard, O.G., Giubega, L., Gizdov, K., Gligorov, V.V., Golubkov, D., Golutvin, A., Gomes, A., Gorelov, I.V., Gotti, C., Grabalosa Gándara, M., Graciani Diaz, R., Granado Cardoso, L.A., Graugés, E., Graverini, E., Graziani, G., Grecu, A., Griffith, P., Grillo, L., Gruberg Cazon, B.R., Grünberg, O., Gushchin, E., Guz, Yu., Gys, T., Göbel, C., Hadavizadeh, T., Hadjivasiliou, C., Haefeli, G., Haen, C., Haines, S.C., Hall, S., Hamilton, B., Han, X., Hansmann-Menzemer, S., Harnew, N., Harnew, S.T., Harrison, J., Hatch, M., He, J., Head, T., Heister, A., Hennessy, K., Henrard, P., Henry, L., Hernando Morata, J.A., van Herwijnen, E., Heß, M., Hicheur, A., Hill, D., Hombach, C., Hopchev, H., Hulsbergen, W., Humair, T., Hushchyn, M., Hussain, N., Hutchcroft, D., Idzik, M., Ilten, P., Jacobsson, R., Jaeger, A., Jalocha, J., Jans, E., Jawahery, A., Jiang, F., John, M., Johnson, D., Jones, C.R., Joram, C., Jost, B., Jurik, N., Kandybei, S., Kanso, W., Karacson, M., Kariuki, J.M., Karodia, S., Kecke, M., Kelsey, M., Kenyon, I.R., Kenzie, M., Ketel, T., Khairullin, E., Khanji, B., Khurewathanakul, C., Kirn, T., Klaver, S., Klimaszewski, K., Koliiev, S., Kolpin, M., Komarov, I., Koopman, R.F., Koppenburg, P., Kozachuk, A., Kozeiha, M., Kravchuk, L., Kreplin, K., Kreps, M., Krokovny, P., Kruse, F., Krzemien, W., Kucewicz, W., Kucharczyk, M., Kudryavtsev, V., Kuonen, A.K., Kurek, K., Kvaratskheliya, T., Lacarrere, D., Lafferty, G., Lai, A., 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Y, Zhelezov, A, Zheng, Y, Zhokhov, A, Zhu, X, Zhukov, V, and Zucchelli, S
Subjects: Physics beyond the Standard Model, Hadron, transformation [parity], General Physics and Astronomy, 7000 GeV-cms8000 GeV-cms, violation [CP], decay [meson], 01 natural sciences, High Energy Physics - Experiment, Settore FIS/04 - Fisica Nucleare e Subnucleare, High Energy Physics - Experiment (hep-ex), antimatter, scattering [p p], [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], Antimatèria, Decays of bottom mesons, Flavor symmetries, B meson, LHCb - Abteilung Hinton, Physics, Large Hadron Collider, 02 Physical Sciences, new physics, Cabibbo–Kobayashi–Maskawa matrix, parity: transformation, Particle physics, Flavor symmetries, Charge conjugation parity time reversal and other discrete symmetrie, Decays of bottom mesons, asymmetry: CP, CERN LHC Coll, CP-VIOLATION, LAMBDA(B), meson: decay, angular distribution [decay], Antimatter, Physical Sciences, CP violation, LHC, colliding beams [p p], Lambda/b0: hadronic decay, Particle Physics - Experiment, p p: scattering, Fluids & Plasmas, Physics, Multidisciplinary, +p+pi-+K%2B+K%22">Lambda/b0 --> p pi- K+ K, FOS: Physical sciences, hadronic decay [Lambda/b0], +p+pi%2B+2pi%22">Lambda/b0 --> p pi+ 2pi, CP [asymmetry], Determination of Cabibbo-Kobayashi & Maskawa (CKM) matrix element, NO, Nuclear physics, Physics and Astronomy (all), TheoryofComputation_ANALYSISOFALGORITHMSANDPROBLEMCOMPLEXITY, 0103 physical sciences, CP: violation, decay: angular distribution, ddc:530, 010306 general physics, Large Hadron Collider (France and Switzerland), 01 Mathematical Sciences, Science & Technology, charge conjugation, 010308 nuclear & particles physics, hep-ex, High Energy Physics::Phenomenology, Gran Col·lisionador d'Hadrons, LHC-B, HEP, Baryon, LHCb, CKM matrix, Hadronic decays of baryon, 0%29%22">Bottom baryons (|B|>0), High Energy Physics::Experiment, Física de partícules, Experiments, p p: colliding beams, statistical, experimental results
Abstract: Differences in the behaviour of matter and antimatter have been observed in $K$ and $B$ meson decays, but not yet in any baryon decay. Such differences are associated with the non-invariance of fundamental interactions under the combined charge-conjugation and parity transformations, known as $C\!P$ violation. Using data from the LHCb experiment at the Large Hadron Collider, a search is made for $C\!P$-violating asymmetries in the decay angle distributions of $\Lambda^0_b$ baryons decaying to $p\pi^-\pi^+\pi^-$ and $p\pi^-K^+K^-$ final states. These four-body hadronic decays are a promising place to search for sources of $C\!P$ violation both within and beyond the Standard Model of particle physics. We find evidence for $C\!P$ violation in $\Lambda^0_b$ to $p\pi^-\pi^+\pi^-$ decays with a statistical significance corresponding to 3.3 standard deviations including systematic uncertainties. This represents the first evidence for $C\!P$ violation in the baryon sector., Comment: All figures and tables, along with any supplementary material and additional information, are available at https://lhcbproject.web.cern.ch/lhcbproject/Publications/LHCbProjectPublic/LHCb-PAPER-2016-030.html
Published: 2017

24. A FCM-Based Systematic Approach for Building and Analyzing Problem Solving Networks in Open Innovation.

Author: FELEKOĞLU, BURCU, BAYKASOĞLU, AD¡L, and GÖLCÖUK, ¡LKER
Subjects: OPEN innovation, PROBLEM solving, SOCIAL network analysis, KNOWLEDGE management, INTELLIGENT buildings
Abstract: The purpose of this paper is to propose a fuzzy cognitive mapping (FCM)-based systematic approach for building and analyzing problem solving networks in open innovation and illustrate the use of this approach with an application in a company operating in prepress preparation sector. First, the proposed approach is explained step by step. Then, for illustrating the use of this approach, case study method was used and data was collected in a company using a visual form developed for this study and analysis of data was performed using social network analysis (SNA) and FCM methods. The results of the study show that by using the proposed approach managers can better understand, sustain, and develop knowledge management practices in open innovation networks in their companies by considering dynamic contextual factors on their relationships. Visual representation of the resulting network helps managers to better understand their internal and external relationships and identify the most valuable network participants. To the best of our knowledge, this is the first study using SNA and FCM methods together in order to capture the effect of dynamic contextual factors on the relationships in innovation field. [ABSTRACT FROM AUTHOR]
Published: 2020

25. Wood , John Halsey , Jr. Going Dutch: Abraham Kuyper’s Struggle for a Free Church in the Nineteenth-Century Netherlands . Oxford Studies in Historical Theology. New York: Oxford University Press, 2013. 235 pp. $74.00.

Author: de Bruijne, Ad L.
Published: 2014
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26. High accuracy absolute distance metrology

Author: Swinkels, Bas L., primary, Bhattacharya, Nandini, additional, Verlaan, Ad L., additional, and Braat, Joseph J. M., additional
Published: 2017
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27. Leadership from the Edge: A Matter of Balance

Author: Ad L. W. Vogelaar
Subjects: 021110 strategic, defence & security studies, Organizational Behavior and Human Resource Management, Sociology and Political Science, Strategy and Management, 05 social sciences, 0211 other engineering and technologies, Servant leadership, 02 engineering and technology, Management Science and Operations Research, Shared leadership, 0506 political science, Management, Balance (accounting), Transactional leadership, 050602 political science & public administration, Leadership style, Enhanced Data Rates for GSM Evolution, Sociology, Business and International Management
Abstract: Leadership from the edge implies that subordinates are able and authorized to take the initiatives that are necessary to deal with the situations they encounter. Although leadership from the edge is considered important in crisis response operations that the military perform, on-scene commanders are often closely supervised. The reasons behind this tendency are explored by developing and using an analytical framework consisting of nine leadership dimensions. For each dimension the requirements of leadership from the edge are elaborated and compared to actual practice in the armed forces. The conclusion is that many leadership aspects in the military do not match with the requirements of leadership from the edge.
Published: 2007

28. HIGH ACCURACY ABSOLUTE DISTANCE METROLOGY.

Author: Swinkels, Bas L., Bhattacharya, Nandini, Verlaan, Ad L., and Braat, Joseph J. M.
Published: 2017
Full Text: View/download PDF

29. Chemostat-based proteomic analysis of toluene-affected Pseudomonas putida S12

Author: Albert G. Hulst, Ad L. De Jong, Jan A.M. de Bont, Jan Wery, Ben L. M. van Baar, and Rita J. M. Volkers
Subjects: Proteome, biology, ATP synthase, Pseudomonas putida, Chemiosmosis, Effector, Molecular Sequence Data, Chemostat, biology.organism_classification, Microbiology, Transport protein, Bioreactors, Bacterial Proteins, Biochemistry, biology.protein, Electrophoresis, Gel, Two-Dimensional, Bacterial outer membrane, Ecology, Evolution, Behavior and Systematics, Toluene
Abstract: The aim of this study was to assess the cellular response of the solvent-tolerant Pseudomonas putida S12 to toluene as the single effector. Proteomic analysis (two-dimensional difference-in-gel-electrophoresis) was used to assess the response of P. putida S12 cultured in chemostats. This approach ensures constant growth conditions, both in the presence and absence of toluene. A considerable negative effect of toluene on the cell yield was found. The need for energy in the defence against toluene was reflected by differentially expressed proteins for cell energy management. In toluene-stressed cells the balance between proton motive force (PMF) enforcing and dissipating systems was shifted. NAD(P)H generating systems were upregulated whereas the major proton-driven system, ATP synthase, was downregulated. Other differentially expressed proteins were identified: outer membrane proteins, transport proteins, stress-related proteins and translation-related proteins. In addition, a protein with no assigned function was found. This study yielded a more detailed view of the effect of toluene on the intracellular energy management of P. putida S12 and several novel leads have been obtained for further targeted investigations. © 2006 The Authors.
Published: 2006

30. Characterisation of botulinum toxins type C, D, E, and F by matrix-assisted laser desorption ionisation and electrospray mass spectrometry

Author: Ben L M, van Baar, Albert G, Hulst, Ad L, de Jong, and Eric R J, Wils
Subjects: Spectrometry, Mass, Electrospray Ionization, Botulinum Toxins, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Molecular Sequence Data, Organic Chemistry, Amino Acid Sequence, General Medicine, Peptide Mapping, Biochemistry, Analytical Chemistry
Abstract: In a follow-up of the earlier characterisation of botulinum toxins type A and B (BTxA and BTxB) by mass spectrometry (MS), types C, D, E, and F (BTxC, BTxD, BTxE, BTxF) were now investigated. Botulinum toxins are extremely neurotoxic bacterial toxins, likely to be used as biological warfare agent. Biologically active BTxC, BTxD, BTxE, and BTxF are comprised of a protein complex of the respective neurotoxins with non-toxic non-haemagglutinin (NTNH) and, sometimes, specific haemagglutinins (HA). These protein complexes were observed in mass spectrometric identification. The BTxC complex, from Clostridium botulinum strain 003-9, consisted of a 'type C1 and D mosaic' toxin similar to that of type C strain 6813, a non-toxic non-hemagglutinating and a 33 kDa hemagglutinating (HA-33) component similar to those of strain C-Stockholm, and an exoenzyme C3 of which the sequence was in full agreement with the known genetic sequence of strain 003-9. The BTxD complex, from C. botulinum strain CB-16, consisted of a neurotoxin with the observed sequence identical with that of type D strain BVD/-3 and of an NTNH with the observed sequence identical with that of type C strain C-Yoichi. Remarkably, the observed protein sequence of CB-16 NTNH differed by one amino acid from the known gene sequence: L859 instead of F859. The BTxE complex, from a C. botulinum isolated from herring sprats, consisted of the neurotoxin with an observed sequence identical with that from strain NCTC 11219 and an NTNH similar to that from type E strain Mashike (1 amino acid difference with observed sequence). BTxF, from C. botulinum strain Langeland (NCTC 10281), consisted of the neurotoxin and an NTNH; observed sequences from both proteins were in agreement with the gene sequence known from strain Langeland. As with BTxA and BTxB, matrix-assisted laser desorption/ionisation (MALDI) MS provided provisional identification from trypsin digest peptide maps and liquid chromatography-electrospray (tandem) mass spectrometry (LC-ES MS) afforded unequivocal identification from amino acid sequence information of digest peptides obtained in trypsin digestion.
Published: 2004

31. Identification of Formaldehyde-induced Modifications in Proteins

Author: Jan ten Hove, Daan J.A. Crommelin, Peter Hoogerhout, Wim Jiskoot, Wim E. Hennink, Humphrey F. Brugghe, Ad L. De Jong, Gideon F.A. Kersten, Hugo D. Meiring, Bernard Metz, and Hans A. M. Timmermans
Subjects: chemistry.chemical_classification, Arginine, Stereochemistry, Peptide, Cell Biology, Methylene bridge, Biochemistry, chemistry.chemical_compound, Residue (chemistry), Protein structure, chemistry, Organic chemistry, Molecular Biology, Peptide sequence, Histidine, Cysteine
Abstract: Formaldehyde is a well known cross-linking agent that can inactivate, stabilize, or immobilize proteins. The purpose of this study was to map the chemical modifications occurring on each natural amino acid residue caused by formaldehyde. Therefore, model peptides were treated with excess formaldehyde, and the reaction products were analyzed by liquid chromatography-mass spectrometry. Formaldehyde was shown to react with the amino group of the N-terminal amino acid residue and the side-chains of arginine, cysteine, histidine, and lysine residues. Depending on the peptide sequence, methylol groups, Schiff-bases, and methylene bridges were formed. To study intermolecular cross-linking in more detail, cyanoborohydride or glycine was added to the reaction solution. The use of cyanoborohydride could easily distinguish between peptides containing a Schiff-base or a methylene bridge. Formaldehyde and glycine formed a Schiff-base adduct, which was rapidly attached to primary N-terminal amino groups, arginine and tyrosine residues, and, to a lesser degree, asparagine, glutamine, histidine, and tryptophan residues. Unexpected modifications were found in peptides containing a free N-terminal amino group or an arginine residue. Formaldehyde-glycine adducts reacted with the N terminus by means of two steps: the N terminus formed an imidazolidinone, and then the glycine was attached via a methylene bridge. Two covalent modifications occurred on an arginine-containing peptide: (i) the attachment of one glycine molecule to the arginine residue via two methylene bridges, and (ii) the coupling of two glycine molecules via four methylene bridges. Remarkably, formaldehyde did not generate intermolecular cross-links between two primary amino groups. In conclusion, the use of model peptides enabled us to determine the reactivity of each particular cross-link reaction as a function of the reaction conditions and to identify new reaction products after incubation with formaldehyde.
Published: 2004

32. How To Manage Acute Urethral False Passage Due To Intermittent Catheterization In Spinal Cord Injured Patients Who Refused Insertion Of An Indwelling Catheter

Author: AD??L G??KALP, BRAHIM YILDIRIM, EM??N AYDUR, SAL??M G??KTEPE, EREF BA??AL, and KAM??L YAZICIO??LU
Subjects: Urology
Published: 2003

33. Expression of foreign LpxA acyltransferases in Neisseria meningitidis results in modified lipid A with reduced toxicity and retained adjuvant activity

Author: Ad L. De Jong, Liana Steeghs, Peter van der Ley, Jan Tommassen, Jan ten Hove, Mariska Berns, Loek van Alphen, and Paul Roholl
Subjects: Lipopolysaccharide, Immunology, Meningococcal Vaccines, Neisseria meningitidis, medicine.disease_cause, Microbiology, Lipid A, chemistry.chemical_compound, Bacitracin, Adjuvants, Immunologic, Virology, medicine, Escherichia coli, Strain (chemistry), biology, Tumor Necrosis Factor-alpha, Immunogenicity, Fatty Acids, Gene Transfer Techniques, Tetracycline, biology.organism_classification, Recombinant Proteins, chemistry, lipids (amino acids, peptides, and proteins), Rifampin, Bacterial outer membrane, Acyltransferases, Novobiocin, Bacteria
Abstract: A major problem in the development of vaccines against Gram-negative bacteria is the endotoxic -activity of lipopolysaccharide (LPS), which is determined by its lipid A moiety. Nevertheless, LPS would be an interesting vaccine component because of its immune-stimulating properties. In the present study, we have changed the fatty acid composition of Neisseria meningitidis LPS by replacing the lpxA gene of strain H44/76 with the Escherichia coli or Pseudomonas aeruginosa homologue. The majority of the O-linked 3-OH C12 in N. meningitidis lipid A was replaced by 3-OH C14 (strain HA01E) and 3-OH C10 (strain HA25P) respectively. Both strains, but most notably strain HA01E, had reduced amounts of LPS compared with the wild-type strain. In addition, growth was severely impaired for HA01E. The major outer membrane proteins were expressed normally. Outer membrane complexes of both strains normalized on their LPS content showed a 10-fold reduction in their ability to induce tumour necrosis factor (TNF)-alpha. Immunogenicity studies in BALB/c mice revealed that the adjuvant activity of the LPS was not affected. Thus, the replacement of the O-linked fatty acids in meningococcal lipid A results in immunogenic outer membranes with reduced endotoxic activity, more suitable for use in outer membrane vesicle vaccines.
Published: 2002

34. Characterisation of botulinum toxins type A and B, by matrix-assisted laser desorption ionisation and electrospray mass spectrometry

Author: Albert G. Hulst, Ad L. De Jong, Ben L. M. van Baar, and Eric R. J. Wils
Subjects: Spectrometry, Mass, Electrospray Ionization, Botulinum Toxins, Molecular Sequence Data, Peptide, Mass spectrometry, medicine.disease_cause, Tandem mass spectrometry, Biochemistry, Analytical Chemistry, medicine, Neurotoxin, Trypsin, Amino Acid Sequence, Botulinum Toxins, Type A, Peptide sequence, chemistry.chemical_classification, Chromatography, Sequence Homology, Amino Acid, Organic Chemistry, General Medicine, Pepsin A, Matrix-assisted laser desorption/ionization, chemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Clostridium botulinum, medicine.drug
Abstract: A method earlier developed for the mass spectrometric (MS) identification of tetanus toxin (TTx) was applied to botulinum toxins type A and B (BTxA and BTxB). Botulinum toxins are extremely neurotoxic bacterial toxins, likely to be used as biological warfare agent. Biologically active BTxA and BTxB are comprised of a protein complex of the respective neurotoxins with specific haemagglutinins (HAs) and non-toxic non-haemagglutinins (NTNHs). These protein complexes are also observed in mass spectrometric identification. The particular BTxA complex, from Clostridium botulinum strain 62A, almost completely matched database data derived from genetic sequences known for this strain. Although no such database information was available for BTxB, from C. botulinum strain okra, all protein sequences from the complex except that of HA-70 were found to match proteins known from other type B strains. It was found that matrix-assisted laser desorption ionisation MS provides provisional identification from trypsin digest peptide maps and that liquid chromatography electrospray (tandem) mass spectrometry affords unequivocal identification from amino acid sequence information of digest peptides obtained in trypsin or pepsin digestion. © 2002 Elsevier Science B.V. All rights reserved. Molecular Sequence Numbers: D67030, L42537, M30196, M81186, U24431, U63808, X52066, X79102, X79104, X92973, Y13630, Y14239; Chemicals/CAS: Botulinum Toxin Type A; botulinum toxin type B; Botulinum Toxins; Pepsin A, EC 3.4.23.1; Trypsin, EC 3.4.21.4
Published: 2002

35. Identification of chemicals related to the chemical weapons convention during an interlaboratory proficiency test

Author: Udo A. Th. Brinkman, Simon H. Van Krimpen, Eric R. J. Wils, Albert G. Hulst, Edwin W. J. Hooijschuur, Ad L. De Jong, Charles E. Kientz, Ben L. M. van Baar, and Leo P. J. De Reuver
Subjects: Chemical Warfare Agents, Engineering, business.industry, Proficiency test, Chemical Weapons Convention, Analytical Chemistry, Test (assessment), Laboratory test, Engineering management, Chemical warfare, Identification (biology), business, Spectroscopy, Water sampling
Abstract: In order to test the ability of laboratories to detect and identify chemicals related to the Chemical Weapons Convention (CWC), which prohibits the development, production, stockpiling and use of chemical weapons, and to designate laboratories for this task, the Technical Secretariat of the Organisation for the Prohibition of Chemical Weapons organises proficiency tests. This paper describes the conduct of such a test at the TNO-Prins Maurits Laboratory in Rijswijk, The Netherlands. The analytical strategies and procedures that resulted in the unambiguous identification in the test samples of chemicals relevant to the CWC are discussed. © 2002 Elsevier Science B.V. All rights reserved.
Published: 2002

36. Centrality, rapidity and transverse momentum dependence of J/ψ suppression in Pb–Pb collisions at √sNN = 2.76 TeV

Author: Piano, Stefano, Lea, Ramona, Camerini, Paolo, Luparello, Grazia, Fragiacomo, Enrico, Margagliotti, Giacomo, Rui, Rinaldo, Abelev bv, B., Adam al, J., Adamová cd, D., Aggarwal ch, M. M., Aglieri Rinella ah, G., Agnello cn, M., Agocs eb, A. G., Agostinelli z, A., Agrawal as, N., Ahammed dx, Z., Ahmad r, N., Ahmad Masoodi r, A., Ahmed o, I., Ahn bo, S. U., Ahn bo, S. A., Aimo de, I., Aiola ec, S., Ajaz o, M., Akindinov be, A., Aleksandrov ct, D., Alessandro de, B., Alexandre cv, D., Alici l, A., Alkin c, A., Alme aj, J., Alt an, T., Altini ae, V., Altinpinar q, S., Altsybeev dw, I., Alves Garcia Prado dm, C., Andrei by, C., Andronic cq, A., Anguelov cm, V., Anielski az, J., Anticˇic ́ cr, T., Antinori db, F., Antonioli cy, P., Aphecetche df, L., Appelshäuser ax, H., Arbor br, N., Arcelli z, S., Armesto p, N., Arnaldi de, R., Aronsson ec, T., Arsene u, I. C., Arslandok ax, M., Augustinus ah, A., Averbeck cq, R., Awes ce, T. C., Azmi r, M. D., Bach an, M., Badalà da, A., Baek ao, Y. W., Bagnasco de, S., Bailhache ax, R., Bairathi cl, V., Bala ck, R., Baldisseri n, A., Baltasar Dos Santos Pedrosa ah, F., Bán bf, J., Baral bh, R. C., Barbera aa, R., Barile ae, F., Barnaföldi eb, G. G., Barnby cv, L. S., Barret bq, V., Bartke dj, J., Basile z, M., Bastid bq, N., Basu dx, S., Bathen az, B., Batigne df, G., Batyunya bm, B., Batzing u, P. C., Baumann ax, C., Bearden ca, I. G., Beck ax, H., Bedda cn, C., Behera as, N. K., Belikov ba, I., Bellini z, F., Bellwied do, R., Belmont Moreno bk, E., Bencedi eb, G., Beole y, S., Berceanu by, I., Bercuci by, A., Berdnikov cf, Y., 1, Berenyi eb, D., Berger di, M. E., Bergognon df, A. A. E., Bertens bd, R. A., Berzano y, D., Betev ah, L., Bhasin ck, A., Bhati ch, A. K., Bhattacharjee ap, B., Bhom dt, J., Bianchi y, L., Bianchi bs, N., Bianchin bd, C., Bielcˇík al, J., Bielcˇíková cd, J., Bilandzic ca, A., Bjelogrlic bd, S., Blanco j, F., Blau ct, D., Blume ax, C., Bock bu, F., Boehmer di, F. V., Bogdanov bw, A., Bøggild ca, H., Bogolyubsky bb, M., Boldizsár eb, L., Bombara am, M., Book ax, J., Borel n, H., Borissov cp, A., Bornschein an, J., Bossú bl, F., Botje cb, M., Botta y, E., Böttger aw, S., Braun Munzinger cq, P., Bregant dm, M., Breitner aw, T., Broker ax, T. A., Browning co, T. A., Broz ak, M., Bruna de, E., Bruno ae, G. E., Budnikov cs, D., Buesching ax, H., Bufalino de, S., Buncic ah, P., Busch cm, O., Buthelezi bl, Z., Caffarri ab, D., Cai g, X., Caines ec, H., Caliva bd, A., Calvo Villar cw, E., Canoa Roman ah, V., Carena ah, F., Carena ah, W., Carminati ah, F., Casanova Díaz bs, A., Castillo Castellanos n, J., Casula w, E. A. R., Catanescu by, V., Cavicchioli ah, C., Ceballos Sanchez i, C., Cepila al, J., Cerello de, P., Chang dp, B., Chapeland ah, S., Charvet n, J. L., Chattopadhyay dx, S., Chattopadhyay cu, S., Cherney cg, M., Cheshkov dv, C., Cheynis dv, B., Chibante Barroso ah, V., Chinellato do, D. D., Chochula ah, P., Chojnacki ca, M., Choudhury dx, S., Christakoglou cb, P., Christensen ca, C. H., Christiansen af, P., Chujo dt, T., Chung cp, S. U., Cicalo cz, C., Cifarelli l, L., Z, Cindolo cy, F., Cleymans cj, J., Colamaria ae, F., Colella ae, D., Collu w, A., Colocci z, M., Conesa Balbastre br, G., Conesa del Valle av, Z., Connors ec, M. E., Contin x, G., Contreras k, J. G., Cormier ce, T. M., Corrales Morales y, Y., Cortese ad, P., Cortés Maldonado b, I., Cosentino bu, M. R., Costa ah, F., Crochet bq, P., Cruz Albino k, R., Cuautle bj, E., Cunqueiro bs, L., Dainese db, A., Dang g, R., Danu bi, A., Das cu, D., Das av, I., Das cu, K., Das d, S., Dash dn, A., Dash as, S., De dx, S., Delagrange df, H., 2, Deloff bx, A., Dénes eb, E., D’Erasmo ae, G., de Barros dm, G. O. V., De Caro l, A., de Cataldo cx, G., de Cuveland an, J., De Falco w, A., De Gruttola ac, D., L, De Marco de, N., De Pasquale ac, S., de Rooij bd, R., Diaz Corchero j, M. A., Dietel az, T., Divià ah, R., Di Bari ae, D., Di Liberto dc, S., Di Mauro ah, A., Di Nezza bs, P., Djuvsland q, Ø., Dobrin bd, A., Dobrowolski bx, T., Domenicis Gimenez dm, D., Dönigus ax, B., Dordic u, O., Dorheim di, S., Dubey dx, A. K., Dubla bd, A., Ducroux dv, L., Dupieux bq, P., Dutta Majumdar cu, A. K., Elia cx, D., Engel aw, H., Erazmus ah, B., Erdal aj, H. A., Eschweiler an, D., Espagnon av, B., Estienne df, M., Esumi dt, S., Evans cv, D., Evdokimov bb, S., Eyyubova u, G., Fabris db, D., Faivre br, J., Falchieri z, D., Fantoni bs, A., Fasel cm, M., Fehlker q, D., Feldkamp az, L., Felea bi, D., Feliciello de, A., Feofilov dw, G., Ferencei cd, J., Fernández Téllez b, A., Ferreiro p, E. G., Ferretti y, A., Festanti ab, A., Figiel dj, J., Figueredo dm, M. A. S., Filchagin cs, S., Finogeev bc, D., Fionda ae, F. M., Fiore ae, E. M., Floratos ci, E., Floris ah, M., Foertsch bl, S., Foka cq, P., Fokin ct, S., Francescon ab, A., Frankenfeld cq, U., Fuchs ah, U., Furget br, C., Fusco Girard ac, M., Gaardhøje ca, J. J., Gagliardi y, M., Gallio y, M., Gangadharan s, D. R., Ganoti ce, P., Garabatos cq, C., Garcia Solis m, E., Gargiulo ah, C., Garishvili bv, I., Gerhard an, J., Germain df, M., Gheata ah, A., Gheata ah, M., Ghidini ae, B., Ghosh dx, P., Ghosh d, S. K., Gianotti bs, P., Giubellino ah, P., Gladysz Dziadus dj, E., Glässel cm, P., Gomez k, R., González Zamora j, P., Gorbunov an, S., Görlich dj, L., Gotovac dh, S., Graczykowski dz, L. K., Grajcarek cm, R., Grelli bd, A., Grigoras ah, A., Grigoras ah, C., Grigoriev bw, V., Grigoryan a, A., Grigoryan bm, S., Grinyov c, B., Grion dd, N., Grosse Oetringhaus ah, J. F., Grossiord dv, J. Y., Grosso ah, R., Guber bc, F., Guernane br, R., Guerzoni z, B., Guilbaud dv, M., Gulbrandsen ca, K., Gulkanyan a, H., Gunji ds, T., Gupta ck, A., Gupta ck, R., Khan o, K. H., Haake az, R., Haaland q, Ø., Hadjidakis av, C., Haiduc bi, M., Hamagaki ds, H., Hamar eb, G., Hanratty cv, L. D., Hansen ca, A., Harris ec, J. W., Hartmann an, H., Harton m, A., Hatzifotiadou cy, D., Hayashi ds, S., Hayrapetyan ah, A., A, Heckel ax, S. T., Heide az, M., Helstrup aj, H., Herghelegiu by, A., Herrera Corral k, G., Hess ag, B. A., Hetland aj, K. F., Hicks ec, B., Hippolyte ba, B., Hladky bg, J., Hristov ah, P., Huang q, M., Humanic s, T. J., Hutter an, D., Hwang t, D. S., Ianigro dv, J. C., Ilkaev cs, R., Ilkiv bx, I., Inaba dt, M., Incani w, E., Innocenti y, G. M., Ionita ah, C., Ippolitov ct, M., Irfan r, M., Ivanov cq, M., Ivanov cf, V., Ivanytskyi c, O., Jachołkowski aa, A., Jahnke dm, C., Jang bo, H. J., Janik dz, M. A., Jayarathna do, P. H. S. Y., Jena as, S., Jimenez Bustamante bj, R. T., Jones cv, P. G., Jung ao, H., Jusko cv, A., Kalcher an, S., Kalinak bf, P., Kalweit ah, A., Kamin ax, J., Kang ed, J. H., Kaplin bw, V., Kar dx, S., Karasu Uysal bp, A., Karavichev bc, O., Karavicheva bc, T., Karpechev bc, E., Kebschull aw, U., Keidel ee, R., Ketzer ai, B., Khan r, M. M., 3, Khan cu, P., Khan dx, S. A., Khanzadeev cf, A., Kharlov bb, Y., Kileng aj, B., Kim ed, B., Kim bo, D. W., Kim dp, D. J., Kim ao, J. S., Kim ao, M., Kim ed, M., Kim t, S., Kim ed, T., Kirsch an, S., Kisel an, I., Kiselev be, S., Kisiel dz, A., Kiss eb, G., Klay f, J. L., Klein cm, J., Klein Bösing az, C., Kluge ah, A., Knichel cq, M. L., Knospe dk, A. G., Kobdaj dg, C., Köhler cq, M. K., Kollegger an, T., Kolojvari dw, A., Kondratiev dw, V., Kondratyeva bw, N., Konevskikh bc, A., Kovalenko dw, V., Kowalski dj, M., Kox br, S., Koyithatta Meethaleveedu as, G., Kral dp, J., Králik bf, I., Kramer ax, F., Kravcˇáková am, A., Krelina al, M., Kretz an, M., Krivda cv, M., Krizek cd, F., Krus al, M., Kryshen cf, E., Krzewicki cq, M., Kucˇera cd, V., Kucheriaev ct, Y., Kugathasan ah, T., Kuhn ba, C., Kuijer cb, P. G., Kulakov ax, I., Kumar as, J., Kurashvili bx, P., Kurepin bc, A., Kurepin bc, A. B., Kuryakin cs, A., Kushpil cd, S., Kushpil cd, V., Kweon cm, M. J., Kwon ed, Y., Ladron de Guevara bj, P., Lagana Fernandes dm, C., Lakomov av, I., Langoy dy, R., Lara aw, C., Lardeux df, A., Lattuca y, A., La Pointe bd, S. L., La Rocca aa, P., Lee cv, G. R., Legrand ah, I., Lehnert ax, J., Lemmon cc, R. C., Lenhardt cq, M., Lenti cx, V., Leogrande bd, E., Leoncino y, M., León Monzón dl, I., Lévai eb, P., Li bq, S., G, Lien dy, J., Q, Lietava cv, R., Lindal u, S., Lindenstruth an, V., Lippmann cq, C., Lisa s, M. A., Ljunggren af, H. M., Lodato bd, D. F., Loenne q, P. I., Loggins ea, V. R., Loginov bw, V., Lohner cm, D., Loizides bu, C., Lopez bq, X., López Torres i, E., Lu cm, X. G., Luettig ax, P., Lunardon ab, M., Luo g, J., Luzzi ah, C., Gago cw, A. M., Jacobs bu, P. M., Ma ec, R., Maevskaya bc, A., Mager ah, M., Mahapatra bh, D. P., Maire cm, A., Malaev cf, M., Maldonado Cervantes bj, I., Malinina bm, L., 4, Mal’Kevich be, D., Malzacher cq, P., Mamonov cs, A., Manceau de, L., Manko ct, V., Manso bq, F., Manzari cx, V., Marchisone bq, M., Y, Mareš bg, J., Margotti cy, A., Marín cq, A., Markert ah, C., Marquard ax, M., Martashvili dr, I., Martin cq, N. A., Martinengo ah, P., Martínez b, M. I., Martínez García df, G., Martin Blanco df, J., Martynov c, Y., Mas df, A., Masciocchi cq, S., Masera y, M., Masoni cz, A., Massacrier df, L., Mastroserio ae, A., Matyja dj, A., Mayer dj, C., Mazer dr, J., Mazumder at, R., Mazzoni dc, M. A., Meddi v, F., Menchaca Rocha bk, A., Mercado Pérez cm, J., Meres ak, M., Miake dt, Y., Mikhaylov be, K., Milano ah, L., Milosevic u, J., 5, Mischke bd, A., Mishra at, A. N., Mis ́kowiec cq, D., Mitu bi, C. M., Mlynarz ea, J., Mohanty dx, B., Molnar ba, L., Montaño Zetina k, L., Montes j, E., Morando ab, M., Moreira De Godoy dm, D. A., Moretto ab, S., Morreale dp, A., Morsch ah, A., Muccifora bs, V., Mudnic dh, E., Muhuri dx, S., Mukherjee dx, M., Müller ah, H., Munhoz dm, M. G., Murray cj, S., Musa ah, L., Musinsky bf, J., Nandi as, B. K., Nania cy, R., Nappi cx, E., Nattrass dr, C., Nayak dx, T. K., Nazarenko cs, S., Nedosekin be, A., Nicassio cq, M., Niculescu ah, M., Nielsen ca, B. S., Nikolaev ct, S., Nikulin ct, S., Nikulin cf, V., Nilsen cg, B. S., Noferini l, F., Nomokonov bm, P., Nooren bd, G., Nyanin ct, A., Nyatha as, A., Nystrand q, J., Oeschler cm, H., Oh ec, S., Oh bn, S. K., Ao, 6, Okatan bp, A., Olah eb, L., Oleniacz dz, J., Oliveira Da Silva dm, A. C., Onderwaater cq, J., Oppedisano de, C., Ortiz Velasquez af, A., Oskarsson af, A., Otwinowski cq, J., Oyama cm, K., Pachmayer cm, Y., Pachr al, M., Pagano ac, P., Paic ́ bj, G., Painke an, F., Pajares p, C., Pal dx, S. K., Palmeri da, A., Pant as, D., Papikyan a, V., Pappalardo da, G. S., Park cq, W. J., Passfeld az, A., Patalakha bb, D. I., Paticchio cx, V., Paul cu, B., Pawlak dz, T., Peitzmann bd, T., Pereira Da Costa n, H., Pereira De Oliveira Filho dm, E., Peresunko ct, D., Pérez Lara cb, C. E., Peryt dz, W., Pesci cy, A., Pestov e, Y., Petrácˇek al, V., Petran al, M., Petris by, M., Petrovici by, M., Petta aa, C., Pikna ak, M., Pillot df, P., Pinazza ah, O., Pinsky do, L., Piyarathna do, D. B., Planinic cr, M., Płoskon ́ bu, M., Pluta dz, J., Pochybova eb, S., Podesta Lerma dl, P. L. M., Poghosyan ah, M. G., Pohjoisaho aq, E. H. O., Polichtchouk bb, B., Poljak cr, N., Pop by, A., Porteboeuf Houssais bq, S., Porter bu, J., Pospisil al, V., Potukuchi ck, B., Prasad ea, S. K., D, Preghenella cy, R., Prino de, F., Pruneau ea, C. A., Pshenichnov bc, I., Puddu w, G., Pujahari ea, P., Punin cs, V., Putschke ea, J., Qvigstad u, H., Rachevski dd, A., Raha d, S., Rak dp, J., Rakotozafindrabe n, A., Ramello ad, L., Raniwala cl, R., Raniwala cl, S., Räsänen aq, S. S., Rascanu ax, B. T., Rathee ch, D., Rauf o, A. W., Razazi w, V., Read dr, K. F., Real br, J. S., Redlich bx, K., 7, Reed ec, R. J., Rehman q, A., Reichelt ax, P., Reicher bd, M., Reidt ah, F., Renfordt ax, R., Reolon bs, A. R., Reshetin bc, A., Rettig an, F., Revol ah, J. P., Reygers cm, K., Riabov cf, V., Ricci bt, R. A., Richert af, T., Richter u, M., Riedler ah, P., Riegler ah, W., Riggi aa, F., Rivetti de, A., Rocco bd, E., Rodríguez Cahuantzi b, M., Rodriguez Manso cb, A., Røed u, K., Rogochaya bm, E., Rohni ck, S., Rohr an, D., Röhrich q, D., Romita dq, R., Ronchetti bs, F., Ronflette df, L., Rosnet bq, P., Rossegger ah, S., Rossi ah, A., Roy at, A., Roy ba, C., Roy cu, P., Rubio Montero j, A. J., Russo y, R., Ryabinkin ct, E., Ryabov cf, Y., Rybicki dj, A., Sadovsky bb, S., Šafarˇík ah, K., Sahlmuller ax, B., Sahoo at, R., Sahu bh, P. K., Saini dx, J., Salgado p, C. A., Salzwedel s, J., Sambyal ck, S., Samsonov cf, V., Sanchez Castro ba, X., Sánchez Rodríguez dl, F. J., Šándor bf, L., Sandoval bk, A., Sano dt, M., Santagati aa, G., Sarkar dx, D., Scapparone cy, E., Scarlassara ab, F., Scharenberg co, R. P., Schiaua by, C., Schicker cm, R., Schmidt cq, C., Schmidt ag, H. R., Schuchmann ax, S., Schukraft ah, J., Schulc al, M., Schuster ec, T., Schutz ah, Y., Schwarz cq, K., Schweda cq, K., Scioli z, G., Scomparin de, E., Scott cv, P. A., Scott dr, R., Segato ab, G., Seger cg, J. E., Selyuzhenkov cq, I., Seo cp, J., Serradilla j, E., Sevcenco bi, A., Shabetai df, A., Shabratova bm, G., Shahoyan ah, R., Shangaraev bb, A., Sharma dr, N., Sharma ck, S., Shigaki ar, K., Shtejer y, K., Sibiriak ct, Y., Siddhanta cz, S., Siemiarczuk bx, T., Silvermyr ce, D., Silvestre br, C., Simatovic du, G., Singaraju dx, R., Singh ck, R., Singha bz, S., Singhal dx, V., Sinha dx, B. C., Sinha cu, T., Sitar ak, B., Sitta ad, M., Skaali u, T. B., Skjerdal q, K., Smakal al, R., Smirnov ec, N., Snellings bd, R. J. M., Søgaard af, C., Soltz bv, R., Song cp, J., Song ed, M., Soramel ab, F., Sorensen dr, S., Spacek al, M., Sputowska dj, I., Spyropoulou Stassinaki ci, M., Srivastava co, B. K., Stachel cm, J., Stan bi, I., Stefanek bx, G., Steinpreis s, M., Stenlund af, E., Steyn bl, G., Stiller cm, J. H., Stocco df, D., Stolpovskiy bb, M., Strmen ak, P., Suaide dm, A. A. P., Subieta Vasquez y, M. A., Sugitate ar, T., Suire av, C., Suleymanov o, M., Sultanov be, R., Šumbera cd, M., Susa cr, T., Symons bu, T. J. M., Szanto de Toledo dm, A., Szarka ak, I., Szczepankiewicz ah, A., Szymanski dz, M., Takahashi dn, J., Tangaro ae, M. A., Tapia Takaki av, J. D., 8, Tarantola Peloni ax, A., Tarazona Martinez ah, A., Tauro ah, A., Tejeda Muñoz b, G., Telesca ah, A., Terrevoli ae, C., Ter Minasyan ct, A., Thäder cq, J., Thomas bd, D., Tieulent dv, R., Timmins do, A. R., Toia db, A., Torii ds, H., Trubnikov c, V., Trzaska dp, W. H., Tsuji ds, T., Tumkin cs, A., Turrisi db, R., Tveter u, T. S., Ulery ax, J., Ullaland q, K., Ulrich aw, J., Uras dv, A., Usai w, G. L., Vajzer cd, M., Vala bf, M., Valencia Palomo bq, L., Vallero y, S., Vande Vyvre ah, P., Vannucci bt, L., Van Hoorne ah, J. W., van Leeuwen bd, M., Vargas b, A., Varma as, R., Vasileiou ci, M., Vasiliev ct, A., Vechernin dw, V., Veldhoen bd, M., Venaruzzo x, M., Vercellin y, E., Vergara Limón b, S., Vernet h, R., Verweij ea, M., Vickovic dh, L., Viesti ab, G., Viinikainen dp, J., Vilakazi bl, Z., Villalobos Baillie cv, O., Vinogradov ct, A., Vinogradov dw, L., Vinogradov cs, Y., Virgili ac, T., Viyogi dx, Y. P., Vodopyanov bm, A., Völkl cm, M. A., Voloshin be, K., Voloshin ea, S. A., Volpe ah, G., von Haller ah, B., Vorobyev dw, I., Vranic cq, D., Vrláková am, J., Vulpescu bq, B., Vyushin cs, A., Wagner q, B., Wagner cq, J., Wagner al, V., Wang g, M., Wang cm, Y., Watanabe dt, D., Weber do, M., Wessels az, J. P., Westerhoff az, U., Wiechula ag, J., Wikne u, J., Wilde az, M., Wilk bx, G., Wilkinson cm, J., Williams cy, M. C. S., Windelband cm, B., Winn cm, M., Xiang g, C., Yaldo ea, C. G., Yamaguchi ds, Y., Yang n, H., Yang g, P., Yang q, S., Yano ar, S., Yasnopolskiy ct, S., Yi cp, J., Yin g, Z., Yoo cp, I. K., Yushmanov ct, I., Zaccolo ca, V., Zach al, C., Zaman o, A., Zampolli cy, C., Zaporozhets bm, S., Zarochentsev dw, A., Závada bg, P., Zaviyalov cs, N., Zbroszczyk dz, H., Zgura bi, I. S., Zhalov cf, M., Zhang g, F., Zhang g, H., Zhang bq, X., Bu, G, Zhang g, Y., Zhao u, C., Zhou g, D., Zhou g, F., Zhou bd, Y., Zhu g, H., Zhu g, J., Zhu g, X., Zichichi l, A., Zimmermann cm, A., Zimmermann ah, M. B., Zinovjev c, G., Zoccarato dv, Y., Zynovyev c, M., Zyzak, M., Contin, Giacomo, Piano, Stefano, Lea, Ramona, Camerini, Paolo, Luparello, Grazia, Fragiacomo, Enrico, Margagliotti, Giacomo, Rui, Rinaldo, B., Abelev bv, J., Adam al, D., Adamová cd, M. M., Aggarwal ch, G., Aglieri Rinella ah, M., Agnello cn, De, A. G., Agocs eb, A., Agostinelli z, N., Agrawal a, Z., Ahammed dx, N., Ahmad r, A., Ahmad Masoodi r, I., Ahmed o, S. U., Ahn bo, S. A., Ahn bo, I., Aimo de, Cn, S., Aiola ec, M., Ajaz o, A., Akindinov be, D., Aleksandrov ct, B., Alessandro de, D., Alexandre cv, A., Alici l, Cy, A., Alkin c, J., Alme aj, T., Alt an, V., Altini ae, S., Altinpinar q, I., Altsybeev dw, C., Alves Garcia Prado dm, C., Andrei by, A., Andronic cq, V., Anguelov cm, J., Anielski az, T., Anticˇic ́ cr, F., Antinori db, P., Antonioli cy, L., Aphecetche df, H., Appelshäuser ax, N., Arbor br, S., Arcelli z, N., Armesto p, R., Arnaldi de, T., Aronsson ec, I. C., Arsene u, Cq, M., Arslandok ax, A., Augustinus ah, R., Averbeck cq, T. C., Awes ce, M. D., Azmi r, Cj, M., Bach an, A., Badalà da, Y. W., Baek ao, Bq, S., Bagnasco de, R., Bailhache ax, V., Bairathi cl, R., Bala ck, A., Baldisseri n, F., Baltasar Dos Santos Pedrosa ah, J., Bán bf, R. C., Baral bh, R., Barbera aa, F., Barile ae, G. G., Barnaföldi eb, L. S., Barnby cv, V., Barret bq, J., Bartke dj, M., Basile z, N., Bastid bq, S., Basu dx, B., Bathen az, G., Batigne df, B., Batyunya bm, P. C., Batzing u, C., Baumann ax, I. G., Bearden ca, H., Beck ax, C., Bedda cn, N. K., Behera a, I., Belikov ba, F., Bellini z, R., Bellwied do, E., Belmont Moreno bk, G., Bencedi eb, S., Beole y, I., Berceanu by, A., Bercuci by, Y., Berdnikov cf, D., Berenyi eb, M. E., Berger di, A. A. E., Bergognon df, R. A., Bertens bd, D., Berzano y, L., Betev ah, A., Bhasin ck, A. K., Bhati ch, B., Bhattacharjee ap, J., Bhom dt, L., Bianchi y, N., Bianchi b, C., Bianchin bd, J., Bielcˇík al, J., Bielcˇíková cd, A., Bilandzic ca, S., Bjelogrlic bd, F., Blanco j, D., Blau ct, C., Blume ax, F., Bock bu, Cm, F. V., Boehmer di, A., Bogdanov bw, H., Bøggild ca, M., Bogolyubsky bb, L., Boldizsár eb, M., Bombara am, J., Book ax, H., Borel n, A., Borissov cp, Ea, J., Bornschein an, F., Bossú bl, M., Botje cb, E., Botta y, S., Böttger aw, P., Braun Munzinger cq, M., Bregant dm, Df, T., Breitner aw, T. A., Broker ax, T. A., Browning co, M., Broz ak, E., Bruna de, G. E., Bruno ae, D., Budnikov c, H., Buesching ax, S., Bufalino de, P., Buncic ah, O., Busch cm, Z., Buthelezi bl, D., Caffarri ab, X., Cai g, H., Caines ec, A., Caliva bd, E., Calvo Villar cw, V., Canoa Roman ah, F., Carena ah, W., Carena ah, F., Carminati ah, A., Casanova Díaz b, J., Castillo Castellanos n, E. A. R., Casula w, V., Catanescu by, C., Cavicchioli ah, C., Ceballos Sanchez i, J., Cepila al, P., Cerello de, B., Chang dp, S., Chapeland ah, J. L., Charvet n, S., Chattopadhyay dx, S., Chattopadhyay cu, M., Cherney cg, C., Cheshkov dv, B., Cheynis dv, V., Chibante Barroso ah, D. D., Chinellato do, Dn, P., Chochula ah, M., Chojnacki ca, S., Choudhury dx, P., Christakoglou cb, C. H., Christensen ca, P., Christiansen af, T., Chujo dt, S. U., Chung cp, C., Cicalo cz, L., Cifarelli l, Z, F., Cindolo cy, J., Cleymans cj, F., Colamaria ae, D., Colella ae, A., Collu w, M., Colocci z, G., Conesa Balbastre br, Z., Conesa del Valle av, Ah, M. E., Connors ec, G., Contin x, J. G., Contreras k, T. M., Cormier ce, Y., Corrales Morales y, P., Cortese ad, I., Cortés Maldonado b, M. R., Cosentino bu, Dm, F., Costa ah, P., Crochet bq, R., Cruz Albino k, E., Cuautle bj, L., Cunqueiro b, A., Dainese db, R., Dang g, A., Danu bi, D., Das cu, I., Das av, K., Das cu, S., Das d, A., Dash dn, S., Dash a, S., De dx, H., Delagrange df, A., Deloff bx, E., Dénes eb, G., D’Erasmo ae, G. O. V., de Barros dm, A., De Caro l, Ac, G., de Cataldo cx, J., de Cuveland an, A., De Falco w, D., De Gruttola ac, L, N., De Marco de, S., De Pasquale ac, R., de Rooij bd, M. A., Diaz Corchero j, T., Dietel az, R., Divià ah, D., Di Bari ae, S., Di Liberto dc, A., Di Mauro ah, P., Di Nezza b, Ø., Djuvsland q, A., Dobrin bd, T., Dobrowolski bx, D., Domenicis Gimenez dm, B., Dönigus ax, O., Dordic u, S., Dorheim di, A. K., Dubey dx, A., Dubla bd, L., Ducroux dv, P., Dupieux bq, A. K., Dutta Majumdar cu, D., Elia cx, H., Engel aw, B., Erazmus ah, H. A., Erdal aj, D., Eschweiler an, B., Espagnon av, M., Estienne df, S., Esumi dt, D., Evans cv, S., Evdokimov bb, G., Eyyubova u, D., Fabris db, J., Faivre br, D., Falchieri z, A., Fantoni b, M., Fasel cm, D., Fehlker q, L., Feldkamp az, D., Felea bi, A., Feliciello de, G., Feofilov dw, J., Ferencei cd, A., Fernández Téllez b, E. G., Ferreiro p, A., Ferretti y, A., Festanti ab, J., Figiel dj, M. A. S., Figueredo dm, Dq, S., Filchagin c, D., Finogeev bc, F. M., Fionda ae, E. M., Fiore ae, E., Floratos ci, M., Floris ah, S., Foertsch bl, P., Foka cq, S., Fokin ct, A., Francescon ab, U., Frankenfeld cq, U., Fuchs ah, C., Furget br, M., Fusco Girard ac, J. J., Gaardhøje ca, M., Gagliardi y, M., Gallio y, D. R., Gangadharan, Bu, P., Ganoti ce, Ci, C., Garabatos cq, E., Garcia Solis m, C., Gargiulo ah, I., Garishvili bv, J., Gerhard an, M., Germain df, A., Gheata ah, M., Gheata ah, Bi, B., Ghidini ae, P., Ghosh dx, S. K., Ghosh d, P., Gianotti b, P., Giubellino ah, E., Gladysz Dziadus dj, P., Glässel cm, R., Gomez k, P., González Zamora j, S., Gorbunov an, L., Görlich dj, S., Gotovac dh, L. K., Graczykowski dz, R., Grajcarek cm, A., Grelli bd, A., Grigoras ah, C., Grigoras ah, V., Grigoriev bw, A., Grigoryan a, S., Grigoryan bm, B., Grinyov c, N., Grion dd, J. F., Grosse Oetringhaus ah, J. Y., Grossiord dv, R., Grosso ah, F., Guber bc, R., Guernane br, B., Guerzoni z, M., Guilbaud dv, K., Gulbrandsen ca, H., Gulkanyan a, T., Gunji d, A., Gupta ck, R., Gupta ck, K. H., Khan o, R., Haake az, Ø., Haaland q, C., Hadjidakis av, M., Haiduc bi, H., Hamagaki d, G., Hamar eb, L. D., Hanratty cv, A., Hansen ca, J. W., Harris ec, H., Hartmann an, A., Harton m, D., Hatzifotiadou cy, S., Hayashi d, A., Hayrapetyan ah, A, S. T., Heckel ax, M., Heide az, H., Helstrup aj, A., Herghelegiu by, G., Herrera Corral k, B. A., Hess ag, K. F., Hetland aj, B., Hicks ec, B., Hippolyte ba, J., Hladky bg, P., Hristov ah, M., Huang q, T. J., Humanic, D., Hutter an, D. S., Hwang t, J. C., Ianigro dv, R., Ilkaev c, I., Ilkiv bx, M., Inaba dt, E., Incani w, G. M., Innocenti y, C., Ionita ah, M., Ippolitov ct, M., Irfan r, M., Ivanov cq, V., Ivanov cf, O., Ivanytskyi c, A., Jachołkowski aa, C., Jahnke dm, H. J., Jang bo, M. A., Janik dz, P. H. S. Y., Jayarathna do, S., Jena a, Do, R. T., Jimenez Bustamante bj, P. G., Jones cv, H., Jung ao, A., Jusko cv, S., Kalcher an, P., Kalinak bf, A., Kalweit ah, J., Kamin ax, J. H., Kang ed, V., Kaplin bw, S., Kar dx, A., Karasu Uysal bp, O., Karavichev bc, T., Karavicheva bc, E., Karpechev bc, U., Kebschull aw, R., Keidel ee, B., Ketzer ai, Di, M. M., Khan r, P., Khan cu, S. A., Khan dx, A., Khanzadeev cf, Y., Kharlov bb, B., Kileng aj, B., Kim ed, D. W., Kim bo, Ao, D. J., Kim dp, J. S., Kim ao, M., Kim ao, M., Kim ed, S., Kim t, T., Kim ed, S., Kirsch an, I., Kisel an, S., Kiselev be, A., Kisiel dz, G., Kiss eb, J. L., Klay f, J., Klein cm, C., Klein Bösing az, A., Kluge ah, M. L., Knichel cq, A. G., Knospe dk, C., Kobdaj dg, M. K., Köhler cq, T., Kollegger an, A., Kolojvari dw, V., Kondratiev dw, N., Kondratyeva bw, A., Konevskikh bc, V., Kovalenko dw, M., Kowalski dj, S., Kox br, G., Koyithatta Meethaleveedu a, J., Kral dp, I., Králik bf, F., Kramer ax, A., Kravcˇáková am, M., Krelina al, M., Kretz an, M., Krivda cv, Bf, F., Krizek cd, Aq, M., Krus al, E., Kryshen cf, M., Krzewicki cq, V., Kucˇera cd, Y., Kucheriaev ct, T., Kugathasan ah, C., Kuhn ba, P. G., Kuijer cb, I., Kulakov ax, J., Kumar a, P., Kurashvili bx, A., Kurepin bc, A. B., Kurepin bc, A., Kuryakin c, S., Kushpil cd, V., Kushpil cd, M. J., Kweon cm, Au, Y., Kwon ed, P., Ladron de Guevara bj, C., Lagana Fernandes dm, I., Lakomov av, R., Langoy dy, C., Lara aw, A., Lardeux df, A., Lattuca y, S. L., La Pointe bd, P., La Rocca aa, G. R., Lee cv, I., Legrand ah, J., Lehnert ax, R. C., Lemmon cc, M., Lenhardt cq, V., Lenti cx, E., Leogrande bd, M., Leoncino y, I., León Monzón dl, P., Lévai eb, S., Li bq, G, J., Lien dy, Q, R., Lietava cv, S., Lindal u, V., Lindenstruth an, C., Lippmann cq, M. A., Lisa, H. M., Ljunggren af, D. F., Lodato bd, P. I., Loenne q, V. R., Loggins ea, V., Loginov bw, D., Lohner cm, C., Loizides bu, X., Lopez bq, E., López Torres i, X. G., Lu cm, P., Luettig ax, M., Lunardon ab, J., Luo g, C., Luzzi ah, A. M., Gago cw, P. M., Jacobs bu, R., Ma ec, A., Maevskaya bc, M., Mager ah, D. P., Mahapatra bh, A., Maire cm, Ba, M., Malaev cf, I., Maldonado Cervantes bj, L., Malinina bm, D., Mal’Kevich be, P., Malzacher cq, A., Mamonov c, L., Manceau de, V., Manko ct, F., Manso bq, V., Manzari cx, M., Marchisone bq, Y, J., Mareš bg, A., Margotti cy, A., Marín cq, C., Markert ah, Dk, M., Marquard ax, I., Martashvili dr, N. A., Martin cq, P., Martinengo ah, M. I., Martínez b, G., Martínez García df, J., Martin Blanco df, Y., Martynov c, A., Mas df, S., Masciocchi cq, M., Masera y, A., Masoni cz, L., Massacrier df, A., Mastroserio ae, A., Matyja dj, C., Mayer dj, J., Mazer dr, R., Mazumder at, M. A., Mazzoni dc, F., Meddi v, A., Menchaca Rocha bk, J., Mercado Pérez cm, M., Meres ak, Y., Miake dt, K., Mikhaylov be, Bm, L., Milano ah, J., Milosevic u, A., Mischke bd, A. N., Mishra at, D., Mis ́kowiec cq, C. M., Mitu bi, J., Mlynarz ea, B., Mohanty dx, Bz, L., Molnar ba, L., Montaño Zetina k, E., Montes j, M., Morando ab, D. A., Moreira De Godoy dm, S., Moretto ab, A., Morreale dp, A., Morsch ah, V., Muccifora b, E., Mudnic dh, S., Muhuri dx, M., Mukherjee dx, H., Müller ah, M. G., Munhoz dm, S., Murray cj, Bl, L., Musa ah, J., Musinsky bf, B. K., Nandi a, R., Nania cy, E., Nappi cx, C., Nattrass dr, T. K., Nayak dx, S., Nazarenko c, A., Nedosekin be, M., Nicassio cq, M., Niculescu ah, B. S., Nielsen ca, S., Nikolaev ct, S., Nikulin ct, V., Nikulin cf, B. S., Nilsen cg, F., Noferini l, P., Nomokonov bm, G., Nooren bd, A., Nyanin ct, A., Nyatha a, J., Nystrand q, H., Oeschler cm, Ay, S., Oh ec, S. K., Oh bn, Ao, 6, A., Okatan bp, L., Olah eb, J., Oleniacz dz, A. C., Oliveira Da Silva dm, J., Onderwaater cq, C., Oppedisano de, A., Ortiz Velasquez af, A., Oskarsson af, J., Otwinowski cq, K., Oyama cm, Y., Pachmayer cm, M., Pachr al, P., Pagano ac, G., Paic ́ bj, F., Painke an, C., Pajares p, S. K., Pal dx, A., Palmeri da, D., Pant a, V., Papikyan a, G. S., Pappalardo da, W. J., Park cq, A., Passfeld az, D. I., Patalakha bb, V., Paticchio cx, B., Paul cu, T., Pawlak dz, T., Peitzmann bd, H., Pereira Da Costa n, E., Pereira De Oliveira Filho dm, D., Peresunko ct, C. E., Pérez Lara cb, W., Peryt dz, A., Pesci cy, Y., Pestov e, V., Petrácˇek al, M., Petran al, M., Petris by, M., Petrovici by, C., Petta aa, M., Pikna ak, P., Pillot df, O., Pinazza ah, L., Pinsky do, D. B., Piyarathna do, M., Planinic cr, Du, M., Płoskon ́ bu, J., Pluta dz, S., Pochybova eb, P. L. M., Podesta Lerma dl, M. G., Poghosyan ah, Cg, E. H. O., Pohjoisaho aq, B., Polichtchouk bb, N., Poljak cr, A., Pop by, S., Porteboeuf Houssais bq, J., Porter bu, V., Pospisil al, B., Potukuchi ck, S. K., Prasad ea, D, R., Preghenella cy, F., Prino de, C. A., Pruneau ea, I., Pshenichnov bc, G., Puddu w, P., Pujahari ea, As, V., Punin c, J., Putschke ea, H., Qvigstad u, A., Rachevski dd, S., Raha d, J., Rak dp, A., Rakotozafindrabe n, L., Ramello ad, R., Raniwala cl, S., Raniwala cl, S. S., Räsänen aq, B. T., Rascanu ax, D., Rathee ch, A. W., Rauf o, V., Razazi w, K. F., Read dr, J. S., Real br, K., Redlich bx, R. J., Reed ec, A., Rehman q, P., Reichelt ax, M., Reicher bd, F., Reidt ah, R., Renfordt ax, A. R., Reolon b, A., Reshetin bc, F., Rettig an, J. P., Revol ah, K., Reygers cm, V., Riabov cf, R. A., Ricci bt, T., Richert af, M., Richter u, P., Riedler ah, W., Riegler ah, F., Riggi aa, A., Rivetti de, E., Rocco bd, M., Rodríguez Cahuantzi b, A., Rodriguez Manso cb, K., Røed u, E., Rogochaya bm, S., Rohni ck, D., Rohr an, D., Röhrich q, R., Romita dq, Cc, F., Ronchetti b, L., Ronflette df, P., Rosnet bq, S., Rossegger ah, A., Rossi ah, A., Roy at, C., Roy ba, P., Roy cu, A. J., Rubio Montero j, R., Russo y, E., Ryabinkin ct, Y., Ryabov cf, A., Rybicki dj, S., Sadovsky bb, K., Šafarˇík ah, B., Sahlmuller ax, R., Sahoo at, P. K., Sahu bh, J., Saini dx, C. A., Salgado p, J., Salzwedel, S., Sambyal ck, V., Samsonov cf, X., Sanchez Castro ba, Bj, F. J., Sánchez Rodríguez dl, L., Šándor bf, A., Sandoval bk, M., Sano dt, G., Santagati aa, D., Sarkar dx, E., Scapparone cy, F., Scarlassara ab, R. P., Scharenberg co, C., Schiaua by, R., Schicker cm, C., Schmidt cq, H. R., Schmidt ag, S., Schuchmann ax, J., Schukraft ah, M., Schulc al, T., Schuster ec, Y., Schutz ah, K., Schwarz cq, K., Schweda cq, G., Scioli z, E., Scomparin de, P. A., Scott cv, R., Scott dr, G., Segato ab, J. E., Seger cg, I., Selyuzhenkov cq, J., Seo cp, E., Serradilla j, Bk, A., Sevcenco bi, A., Shabetai df, G., Shabratova bm, R., Shahoyan ah, A., Shangaraev bb, N., Sharma dr, Bh, S., Sharma ck, K., Shigaki ar, K., Shtejer y, Y., Sibiriak ct, S., Siddhanta cz, T., Siemiarczuk bx, D., Silvermyr ce, C., Silvestre br, G., Simatovic du, R., Singaraju dx, R., Singh ck, S., Singha bz, Dx, V., Singhal dx, B. C., Sinha dx, T., Sinha cu, B., Sitar ak, M., Sitta ad, T. B., Skaali u, K., Skjerdal q, R., Smakal al, N., Smirnov ec, R. J. M., Snellings bd, C., Søgaard af, R., Soltz bv, J., Song cp, M., Song ed, F., Soramel ab, S., Sorensen dr, M., Spacek al, I., Sputowska dj, M., Spyropoulou Stassinaki ci, B. K., Srivastava co, J., Stachel cm, I., Stan bi, G., Stefanek bx, M., Steinpreis, E., Stenlund af, G., Steyn bl, J. H., Stiller cm, D., Stocco df, M., Stolpovskiy bb, P., Strmen ak, A. A. P., Suaide dm, M. A., Subieta Vasquez y, T., Sugitate ar, C., Suire av, M., Suleymanov o, R., Sultanov be, M., Šumbera cd, T., Susa cr, T. J. M., Symons bu, A., Szanto de Toledo dm, I., Szarka ak, A., Szczepankiewicz ah, M., Szymanski dz, J., Takahashi dn, M. A., Tangaro ae, J. D., Tapia Takaki av, A., Tarantola Peloni ax, A., Tarazona Martinez ah, A., Tauro ah, G., Tejeda Muñoz b, A., Telesca ah, C., Terrevoli ae, A., Ter Minasyan ct, Bw, J., Thäder cq, D., Thomas bd, R., Tieulent dv, A. R., Timmins do, A., Toia db, Ax, H., Torii d, V., Trubnikov c, W. H., Trzaska dp, T., Tsuji d, A., Tumkin c, R., Turrisi db, T. S., Tveter u, J., Ulery ax, K., Ullaland q, J., Ulrich aw, A., Uras dv, G. L., Usai w, M., Vajzer cd, M., Vala bf, L., Valencia Palomo bq, Av, S., Vallero y, P., Vande Vyvre ah, L., Vannucci bt, J. W., Van Hoorne ah, M., van Leeuwen bd, A., Vargas b, R., Varma a, M., Vasileiou ci, A., Vasiliev ct, V., Vechernin dw, M., Veldhoen bd, M., Venaruzzo x, E., Vercellin y, S., Vergara Limón b, R., Vernet h, M., Verweij ea, L., Vickovic dh, G., Viesti ab, J., Viinikainen dp, Z., Vilakazi bl, O., Villalobos Baillie cv, A., Vinogradov ct, L., Vinogradov dw, Y., Vinogradov c, T., Virgili ac, Y. P., Viyogi dx, A., Vodopyanov bm, M. A., Völkl cm, K., Voloshin be, S. A., Voloshin ea, G., Volpe ah, B., von Haller ah, I., Vorobyev dw, D., Vranic cq, J., Vrláková am, B., Vulpescu bq, A., Vyushin c, B., Wagner q, J., Wagner cq, V., Wagner al, M., Wang g, Y., Wang cm, D., Watanabe dt, M., Weber do, J. P., Wessels az, U., Westerhoff az, J., Wiechula ag, J., Wikne u, M., Wilde az, G., Wilk bx, J., Wilkinson cm, M. C. S., Williams cy, B., Windelband cm, M., Winn cm, C., Xiang g, C. G., Yaldo ea, Y., Yamaguchi d, H., Yang n, Bd, P., Yang g, S., Yang q, S., Yano ar, S., Yasnopolskiy ct, J., Yi cp, Z., Yin g, I. K., Yoo cp, I., Yushmanov ct, Zaccolo ca, V., C., Zach al, A., Zaman o, C., Zampolli cy, S., Zaporozhets bm, A., Zarochentsev dw, P., Závada bg, N., Zaviyalov c, H., Zbroszczyk dz, I. S., Zgura bi, M., Zhalov cf, F., Zhang g, H., Zhang g, X., Zhang bq, G, Bu, Y., Zhang g, C., Zhao u, D., Zhou g, F., Zhou g, Y., Zhou bd, H., Zhu g, J., Zhu g, X., Zhu g, A., Zichichi l, A., Zimmermann cm, M. B., Zimmermann ah, Az, G., Zinovjev c, Y., Zoccarato dv, M., Zynovyev c, M., Zyzak, and Contin, Giacomo
Subjects: Relativistic heavy ion collisions, Quarkonium, J/ψ suppression, Quark gluon plasma, Experimental results, Relativistic heavy ion collision
Abstract: The inclusive J/ψ nuclear modification factor (RAA) in Pb–Pb collisions at √sNN = 2.76 TeV has been measured by ALICE as a function of centrality in the e+e− decay channel at mid-rapidity (|y| < 0.8) and as a function of centrality, transverse momentum and rapidity in the μ+μ− decay channel at forward-rapidity (2.5 < y < 4). The J/ψ yields measured in Pb–Pb are suppressed compared to those in pp collisions scaled by the number of binary collisions. The RAA integrated over a centrality range corresponding to 90% of the inelastic Pb–Pb cross section is 0.72±0.06(stat.)±0.10(syst.) at mid-rapidity and 0.58 ± 0.01(stat.) ± 0.09(syst.) at forward-rapidity. At low transverse momentum, significantly larger values of RAA are measured at forward-rapidity compared to measurements at lower energy. These features suggest that a contribution to the J/ψ yield originates from charm quark (re)combination in the deconfined partonic medium.
Published: 2014

37. Production of charged pions, kaons and protons at large transverse momenta in pp and Pb–Pb collisions at √sNN = 2.76 TeV

Author: Piano, Stefano, Lea, Ramona, Camerini, Paolo, Luparello, Grazia, Margagliotti, Giacomo, Rui, Rinaldo, Abelev bt, B., Adam ak, J., Adamová cb, D., Aggarwal cf, M. M., Aglieri Rinella ah, G., Agnello cm, M., Agostinelli z, A., Agrawal ar, N., Ahammed dw, Z., Ahmad r, N., Ahmad Masoodi r, A., Ahmed o, I., Ahn bm, S. U., Ahn bm, S. A., Aimo cm, I., Aiola eb, S., Ajaz o, M., Akindinov bc, A., Aleksandrov cs, D., Alessandro dd, B., Alexandre cu, D., Alici cx, A., L, Alkin c, A., Alme ai, J., Alt am, T., Altini ae, V., Altinpinar q, S., Altsybeev dv, I., Alves Garcia Prado dl, C., Andrei bw, C., Andronic cp, A., Anguelov cl, V., Anielski ay, J., Anticˇic ́ cq, T., Antinori da, F., Antonioli cx, P., Aphecetche df, L., Appelshäuser aw, H., Arbor bp, N., Arcelli z, S., Armesto p, N., Arnaldi dd, R., Aronsson eb, T., Arsene u, I. C., Arslandok aw, M., Augustinus ah, A., Averbeck cp, R., Awes cc, T. C., Azmi r, M. D., Bach am, M., Badalà cz, A., Baek an, Y. W., Bagnasco dd, S., Bailhache aw, R., Bairathi cj, V., Bala ci, R., Baldisseri n, A., Baltasar Dos Santos Pedrosa ah, F., Bán bd, J., Baral bf, R. C., Barbera aa, R., Barile ae, F., Barnaföldi ea, G. G., Barnby cu, L. S., Barret bo, V., Bartke di, J., Basile z, M., Bastid bo, N., Basu dw, S., Bathen ay, B., Batigne df, G., Batyunya bk, B., Batzing u, P. C., Baumann aw, C., Bearden by, I. G., Beck aw, H., Bedda cm, C., Behera ar, N. K., Belikov az, I., Bellini z, F., Bellwied dn, R., Belmont Moreno bi, E., Bencedi ea, G., Beole y, S., Berceanu bw, I., Bercuci bw, A., Berdnikov cd, Y., 1, Berenyi ea, D., Berger ck, M. E., Bertens bb, R. A., Berzano y, D., Betev ah, L., Bhasin ci, A., Bhati cf, A. K., Bhattacharjee ao, B., Bhom ds, J., Bianchi y, L., Bianchi bq, N., Bianchin bb, C., Bielcˇík ak, J., Bielcˇíková cb, J., Bilandzic by, A., Bjelogrlic bb, S., Blanco j, F., Blau cs, D., Blume aw, C., Bock cl, F., Bogdanov bu, A., Bøggild by, H., Bogolyubsky de, M., Böhmer ck, F. V., Boldizsár ea, L., Bombara al, M., Book aw, J., Borel n, H., Borissov dz, A., Bornschein am, J., Bossú bj, F., Botje bz, M., Botta y, E., Böttger av, S., Braun Munzinger cp, P., Bregant dl, M., Breitner av, T., Broker aw, T. A., Browning cn, T. A., Broz aj, M., Bruna dd, E., Bruno ae, G. E., Budnikov cr, D., Buesching aw, H., Bufalino dd, S., Buncic ah, P., Busch cl, O., Buthelezi bj, Z., Caffarri ab, D., Cai g, X., Caines eb, H., Caliva bb, A., Calvo Villar cv, E., Canoa Roman ah, V., Carena ah, F., Carena ah, W., Carminati ah, F., Casanova Díaz bq, A., Castillo Castellanos n, J., Casula w, E. A. R., Catanescu bw, V., Cavicchioli ah, C., Ceballos Sanchez i, C., Cepila ak, J., Cerello dd, P., Chang do, B., Chapeland ah, S., Charvet n, J. L., Chattopadhyay dw, S., Chattopadhyay ct, S., Cherney ce, M., Cheshkov du, C., Cheynis du, B., Chibante Barroso ah, V., Chinellato dn, D. D., Chochula ah, P., Chojnacki by, M., Choudhury dw, S., Christakoglou bz, P., Christensen by, C. H., Christiansen af, P., Chujo ds, T., Chung co, S. U., Cicalo cy, C., Cifarelli l, L., Z, Cindolo cx, F., Cleymans ch, J., Colamaria ae, F., Colella ae, D., Collu w, A., Colocci z, M., Conesa Balbastre bp, G., Conesa del Valle au, Z., Connors eb, M. E., Contin x, G., Contreras k, J. G., Cormier cc, T. M., Corrales Morales y, Y., Cortese ad, P., Cortés Maldonado b, I., Cosentino bs, M. R., Costa ah, F., Crochet bo, P., Cruz Albino k, R., Cuautle bh, E., Cunqueiro bq, L., Dainese da, A., Dang g, R., Danu bg, A., Das ct, D., Das au, I., Das ct, K., Das d, S., Dash dm, A., Dash ar, S., De dw, S., Delagrange df, H., 2, Deloff bv, A., Dénes ea, E., D’Erasmo ae, G., de Barros dl, G. O. V., De Caro l, A., de Cataldo cw, G., de Cuveland am, J., De Falco w, A., De Gruttola ac, D., De Marco dd, N., De Pasquale ac, S., de Rooij bb, R., Diaz Corchero j, M. A., Dietel ay, T., Divià ah, R., Di Bari ae, D., Di Liberto db, S., Di Mauro ah, A., Di Nezza bq, P., Djuvsland q, Ø., Dobrin bb, A., Dobrowolski bv, T., Domenicis Gimenez dl, D., Dönigus aw, B., Dordic u, O., Dørheim ck, S., Dubey dw, A. K., Dubla bb, A., Ducroux du, L., Dupieux bo, P., Dutta Majumdar ct, A. K., Ehlers eb, R. J., Elia cw, D., Engel av, H., Erazmus ah, B., Erdal ai, H. A., Eschweiler am, D., Espagnon au, B., Estienne df, M., Esumi ds, S., Evans cu, D., Evdokimov de, S., Eyyubova u, G., Fabris da, D., Faivre bp, J., Falchieri z, D., Fantoni bq, A., Fasel cl, M., Fehlker q, D., Feldkamp ay, L., Felea bg, D., Feliciello dd, A., Feofilov dv, G., Ferencei cb, J., Fernández Téllez b, A., Ferreiro p, E. G., Ferretti y, A., Festanti ab, A., Figiel di, J., Figueredo dl, M. A. S., Filchagin cr, S., Finogeev ba, D., Fionda ae, F. M., Fiore ae, E. M., Floratos cg, E., Floris ah, M., Foertsch bj, S., Foka cp, P., Fokin cs, S., Fragiacomo dc, E., Francescon ab, A., Frankenfeld cp, U., Fuchs ah, U., Furget bp, C., Fusco Girard ac, M., Gaardhøje by, J. J., Gagliardi y, M., Gago cv, A. M., Gallio y, M., Gangadharan s, D. R., Ganoti cg, P., Garabatos cp, C., Garcia Solis m, E., Gargiulo ah, C., Garishvili bt, I., Gerhard am, J., Germain df, M., Gheata ah, A., Gheata bg, M., Ghidini ae, B., Ghosh dw, P., Ghosh d, S. K., Gianotti bq, P., Giubellino ah, P., Gladysz Dziadus di, E., Glässel cl, P., Gomez k, R., González Zamora j, P., Gorbunov am, S., Görlich di, L., Gotovac dh, S., Graczykowski dy, L. K., Grajcarek cl, R., Grelli bb, A., Grigoras ah, A., Grigoras ah, C., Grigoriev bu, V., Grigoryan a, A., Grigoryan bk, S., Grinyov c, B., Grion dc, N., Grosse Oetringhaus ah, J. F., Grossiord du, J. Y., Grosso ah, R., Guber ba, F., Guernane bp, R., Guerzoni z, B., Guilbaud du, M., Gulbrandsen by, K., Gulkanyan a, H., Gunji dr, T., Gupta ci, A., Gupta ci, R., Khan o, K. H., Haake ay, R., Haaland q, Ø., Hadjidakis au, C., Haiduc bg, M., Hamagaki dr, H., Hamar ea, G., Hanratty cu, L. D., Hansen by, A., Harris eb, J. W., Hartmann am, H., Harton m, A., Hatzifotiadou cx, D., Hayashi dr, S., Heckel aw, S. T., Heide ay, M., Helstrup ai, H., Herghelegiu bw, A., Herrera Corral k, G., Hess ag, B. A., Hetland ai, K. F., Hicks eb, B., Hippolyte az, B., Hladky be, J., Hristov ah, P., Huang q, M., Humanic s, T. J., Hutter am, D., Hwang t, D. S., Ilkaev cr, R., Ilkiv bv, I., Inaba ds, M., Incani w, E., Innocenti y, G. M., Ionita ah, C., Ippolitov cs, M., Irfan r, M., Ivanov cp, M., Ivanov cd, V., Ivanytskyi c, O., Jachołkowski aa, A., Jacobs bs, P. M., Jahnke dl, C., Jang bm, H. J., Janik dy, M. A., Jayarathna dn, P. H. S. Y., Jena ar, S., Jimenez Bustamante bh, R. T., Jones cu, P. G., Jung an, H., Jusko cu, A., Kalcher am, S., Kalinak bd, P., Kalweit ah, A., Kamin aw, J., Kang ec, J. H., Kaplin bu, V., Kar dw, S., Karasu Uysal bn, A., Karavichev ba, O., Karavicheva ba, T., Karpechev ba, E., Kebschull av, U., Keidel ed, R., Ketzer ck, B., Khan r, M. M., 3, Khan ct, P., Khan dw, S. A., Khanzadeev cd, A., Kharlov de, Y., Kileng ai, B., Kim ec, B., Kim bm, D. W., Kim do, D. J., Kim an, J. S., Kim an, M., Kim ec, M., Kim t, S., Kim ec, T., Kirsch am, S., Kisel am, I., Kiselev bc, S., Kisiel dy, A., Kiss ea, G., Klay f, J. L., Klein cl, J., Klein Bösing ay, C., Kluge ah, A., Knichel cp, M. L., Knospe dj, A. G., Kobdaj ah, C., Kofarago ah, M., Köhler cp, M. K., Kollegger am, T., Kolojvari dv, A., Kondratiev dv, V., Kondratyeva bu, N., Konevskikh ba, A., Kovalenko dv, V., Kowalski ah, M., Kox bp, S., Koyithatta Meethaleveedu ar, G., Kral do, J., Králik bd, I., Kramer aw, F., Kravcˇáková al, A., Krelina ak, M., Kretz am, M., Krivda cu, M., Krizek cb, F., Krus ak, M., Kryshen cd, E., Krzewicki cp, M., Kucˇera cb, V., Kucheriaev cs, Y., Kugathasan ah, T., Kuhn az, C., Kuijer bz, P. G., Kulakov aw, I., Kumar ar, J., Kurashvili bv, P., Kurepin ba, A., Kurepin ba, A. B., Kuryakin cr, A., Kushpil cb, S., Kushpil cb, V., Kweon cl, M. J., Kwon ec, Y., Ladron de Guevara bh, P., Lagana Fernandes dl, C., Lakomov au, I., Langoy dx, R., Lara av, C., Lardeux df, A., Lattuca y, A., La Pointe dd, S. L., La Rocca aa, P., Leardini cl, L., Lee cu, G. R., Legrand ah, I., Lehnert aw, J., Lemmon ca, R. C., Lenhardt cp, M., Lenti cw, V., Leogrande bb, E., Leoncino y, M., León Monzón dk, I., Lévai ea, P., Li g, S., Lien dx, J., Lietava cu, R., Lindal u, S., Lindenstruth am, V., Lippmann cp, C., Lisa s, M. A., Ljunggren af, H. M., Lodato bb, D. F., Loenne q, P. I., Loggins dz, V. R., Loginov bu, V., Lohner cl, D., Loizides bs, C., Lopez bo, X., López Torres i, E., Lu cl, X. G., Luettig aw, P., Lunardon ab, M., Luo g, J., Luzzi ah, C., Ma eb, R., Maevskaya ba, A., Mager ah, M., Mahapatra bf, D. P., Maire cl, A., Malaev cd, M., Maldonado Cervantes bh, I., Malinina bk, L., 4, Mal’Kevich bc, D., Malzacher cp, P., Mamonov cr, A., Manceau dd, L., Manko cs, V., Manso bo, F., Manzari ah, V., Marchisone y, M., Mareš be, J., Margotti cx, A., Marín cp, A., Markert ah, C., Marquard aw, M., Martashvili dq, I., Martin cp, N. A., Martinengo ah, P., Martínez b, M. I., Martínez García df, G., Martin Blanco df, J., Martynov c, Y., Mas df, A., Masciocchi cp, S., Masera y, M., Masoni cy, A., Massacrier df, L., Mastroserio ae, A., Matyja di, A., Mayer di, C., Mazer dq, J., Mazumder as, R., Mazzoni db, M. A., Meddi v, F., Menchaca Rocha bi, A., Meninno ac, E., Mercado Pérez cl, J., Meres aj, M., Miake ds, Y., Mikhaylov bc, K., Milano ah, L., Milosevic u, J., 5, Mischke bb, A., Mishra as, A. N., Mis ́kowiec cp, D., Mitu bg, C. M., Mlynarz dz, J., Mohanty dw, B., Molnar az, L., Montaño Zetina k, L., Montes j, E., Morando ab, M., Moreira De Godoy dl, D. A., Moretto ab, S., Morreale do, A., Morsch ah, A., Muccifora bq, V., Mudnic dh, E., Muhuri dw, S., Mukherjee dw, M., Müller ah, H., Munhoz dl, M. G., Murray ch, S., Musa ah, L., Musinsky bd, J., Nandi ar, B. K., Nania cx, R., Nappi cw, E., Nattrass dq, C., Nayak dw, T. K., Nazarenko cr, S., Nedosekin bc, A., Nicassio cp, M., Niculescu bg, M., Nielsen by, B. S., Nikolaev cs, S., Nikulin cs, S., Nikulin cd, V., Nilsen ce, B. S., Noferini l, F., Nomokonov bk, P., Nooren bb, G., Nyanin cs, A., Nystrand q, J., Oeschler cl, H., Oh eb, S., Oh bl, S. K., An, 6, Okatan bn, A., Olah ea, L., Oleniacz dy, J., Oliveira Da Silva dl, A. C., Onderwaater cp, J., Oppedisano dd, C., Ortiz Velasquez af, A., Oskarsson af, A., Otwinowski cp, J., Oyama cl, K., Pachmayer cl, Y., Pachr ak, M., Pagano ac, P., Paic ́ bh, G., Painke am, F., Pajares p, C., Pal dw, S. K., Palmeri cz, A., Pant ar, D., Papikyan a, V., Pappalardo cz, G. S., Park cp, W. J., Passfeld ay, A., Patalakha de, D. I., Paticchio cw, V., Paul ct, B., Pawlak dy, T., Peitzmann bb, T., Pereira Da Costa n, H., Pereira De Oliveira Filho dl, E., Peresunko cs, D., Pérez Lara bz, C. E., Peryt dy, W., Pesci cx, A., Pestov e, Y., Petrácˇek ak, V., Petran ak, M., Petris bw, M., Petrovici bw, M., Petta aa, C., Pikna aj, M., Pillot df, P., Pinazza ah, O., Pinsky dn, L., Piyarathna dn, D. B., Płoskon ́ bs, M., Planinic cq, M., Pluta dy, J., Pochybova ea, S., Podesta Lerma dk, P. L. M., Poghosyan ah, M. G., Pohjoisaho ap, E. H. O., Polichtchouk de, B., Poljak cq, N., Pop bw, A., Porteboeuf Houssais bo, S., Porter bs, J., Pospisil ak, V., Potukuchi ci, B., Prasad d, S. K., Preghenella cx, R., Prino dd, F., Pruneau dz, C. A., Pshenichnov ba, I., Puddu w, G., Punin cr, V., Putschke dz, J., Qvigstad u, H., Rachevski dc, A., Raha d, S., Rak do, J., Rakotozafindrabe n, A., Ramello ad, L., Raniwala cj, R., Raniwala cj, S., Räsänen ap, S. S., Rascanu aw, B. T., Rathee cf, D., Rauf o, A. W., Razazi w, V., Read dq, K. F., Real bp, J. S., Redlich bv, K., 7, Reed eb, R. J., Rehman q, A., Reichelt aw, P., Reicher bb, M., Reidt cl, F., Renfordt aw, R., Reolon bq, A. R., Reshetin ba, A., Rettig am, F., Revol ah, J. P., Reygers cl, K., Riabov cd, V., Ricci br, R. A., Richert af, T., Richter u, M., Riedler ah, P., Riegler ah, W., Riggi aa, F., Rivetti dd, A., Rocco bb, E., Rodríguez Cahuantzi b, M., Rodriguez Manso bz, A., Røed u, K., Rogochaya bk, E., Rohni ci, S., Rohr am, D., Röhrich q, D., Romita dp, R., Ronchetti bq, F., Ronflette df, L., Rosnet bo, P., Rossegger ah, S., Rossi ah, A., Roukoutakis cg, F., Roy as, A., Roy az, C., Roy ct, P., Rubio Montero j, A. J., Russo y, R., Ryabinkin cs, E., Ryabov cd, Y., Rybicki di, A., Sadovsky de, S., Šafarˇík ah, K., Sahlmuller aw, B., Sahoo as, R., Sahu bf, P. K., Saini dw, J., Salgado p, C. A., Salzwedel s, J., Sambyal ci, S., Samsonov cd, V., Sanchez Castro az, X., Sánchez Rodríguez dk, F. J., Šándor bd, L., Sandoval bi, A., Sano ds, M., Santagati aa, G., Sarkar dw, D., Scapparone cx, E., Scarlassara ab, F., Scharenberg cn, R. P., Schiaua bw, C., Schicker cl, R., Schmidt cp, C., Schmidt ag, H. R., Schuchmann aw, S., Schukraft ah, J., Schulc ak, M., Schuster eb, T., Schutz ah, Y., Schwarz cp, K., Schweda cp, K., Scioli z, G., Scomparin dd, E., Scott cu, P. A., Scott dq, R., Segato ab, G., Seger ce, J. E., Selyuzhenkov cp, I., Seo co, J., Serradilla j, E., Sevcenco bg, A., Shabetai df, A., Shabratova bk, G., Shahoyan ah, R., Shangaraev de, A., Sharma dq, N., Sharma ci, S., Shigaki aq, K., Shtejer y, K., Sibiriak cs, Y., Siddhanta cy, S., Siemiarczuk bv, T., Silvermyr cc, D., Silvestre bp, C., Simatovic dt, G., Singaraju dw, R., Singh ci, R., Singha bx, S., Singhal dw, V., Sinha dw, B. C., Sinha ct, T., Sitar aj, B., Sitta ad, M., Skaali u, T. B., Skjerdal q, K., Smakal ak, R., Smirnov eb, N., Snellings bb, R. J. M., Søgaard af, C., Soltz bt, R., Song co, J., Song ec, M., Soramel ab, F., Sorensen dq, S., Spacek ak, M., Sputowska di, I., Spyropoulou Stassinaki cg, M., Srivastava cn, B. K., Stachel cl, J., Stan bg, I., Stefanek bv, G., Steinpreis s, M., Stenlund af, E., Steyn bj, G., Stiller cl, J. H., Stocco df, D., Stolpovskiy de, M., Strmen aj, P., Suaide dl, A. A. P., Subieta Vasquez y, M. A., Sugitate aq, T., Suire au, C., Suleymanov o, M., Sultanov bc, R., Šumbera cb, M., Susa cq, T., Symons bs, T. J. M., Szanto de Toledo dl, A., Szarka aj, I., Szczepankiewicz ah, A., Szymanski dy, M., Takahashi dm, J., Tangaro ae, M. A., Tapia Takaki au, J. D., 8, Tarantola Peloni aw, A., Tarazona Martinez ah, A., Tarzila bw, M. G., Tauro ah, A., Tejeda Muñoz b, G., Telesca ah, A., Terrevoli w, C., Ter Minasyan bu, A., Thäder cp, J., Thomas bb, D., Tieulent du, R., Timmins dn, A. R., Toia da, A., Torii dr, H., Trubnikov c, V., Trzaska do, W. H., Tsuji dr, T., Tumkin cr, A., Turrisi da, R., Tveter u, T. S., Ulery aw, J., Ullaland q, K., Uras du, A., Usai w, G. L., Vajzer cb, M., Vala bk, M., Valencia Palomo au, L., Vallero y, S., Vande Vyvre ah, P., Vannucci br, L., Van Der Maarel bb, J., Van Hoorne ah, J. W., van Leeuwen bb, M., Vargas b, A., Varma ar, R., Vasileiou cg, M., Vasiliev cs, A., Vechernin dv, V., Veldhoen bb, M., Velure q, A., Venaruzzo x, M., Vercellin y, E., Vergara Limón b, S., Vernet h, R., Verweij dz, M., Vickovic dh, L., Viesti ab, G., Viinikainen do, J., Vilakazi bj, Z., Villalobos Baillie cu, O., Vinogradov cs, A., Vinogradov dv, L., Vinogradov cr, Y., Virgili ac, T., Viyogi dw, Y. P., Vodopyanov bk, A., Völkl cl, M. A., Voloshin bc, K., Voloshin dz, S. A., Volpe ah, G., von Haller ah, B., Vorobyev dv, I., Vranic cp, D., Vrláková al, J., Vulpescu bo, B., Vyushin cr, A., Wagner q, B., Wagner cp, J., Wagner ak, V., Wang g, M., Wang cl, Y., Watanabe ds, D., Weber dn, M., Wessels ay, J. P., Westerhoff ay, U., Wiechula ag, J., Wikne u, J., Wilde ay, M., Wilk bv, G., Wilkinson cl, J., Williams cx, M. C. S., Windelband cl, B., Winn cl, M., Xiang g, C., Yaldo dz, C. G., Yamaguchi dr, Y., Yang bb, H., Yang g, P., Yang q, S., Yano aq, S., Yasnopolskiy cs, S., Yi co, J., Yin g, Z., Yoo co, I. K., Yushmanov cs, I., Zaccolo by, V., Zach ak, C., Zaman o, A., Zampolli cx, C., Zaporozhets bk, S., Zarochentsev dv, A., Závada be, P., Zaviyalov cr, N., Zbroszczyk dy, H., Zgura bg, I. S., Zhalov cd, M., Zhang g, F., Zhang g, H., Zhang bo, X., Bs, G, Zhangg, Y., Zhaou, C., Zhoug, D., Zhoug, F., Zhoubb, Y., Zhug, H., Zhudf, J., G, Zhug, J., Zhug, X., Zichichil, A., Zimmermann cl, A., Zimmermann ay, M. B., Zinovjev c, G., Zoccarato du, Y., Zynovyev c, M., Zyzak aw, M., Piano, Stefano, Lea, Ramona, Camerini, Paolo, Luparello, Grazia, Margagliotti, Giacomo, Rui, Rinaldo, B., Abelev bt, J., Adam ak, D., Adamová cb, M. M., Aggarwal cf, G., Aglieri Rinella ah, M., Agnello cm, Dd, A., Agostinelli z, N., Agrawal ar, Z., Ahammed dw, N., Ahmad r, A., Ahmad Masoodi r, I., Ahmed o, S. U., Ahn bm, S. A., Ahn bm, I., Aimo cm, S., Aiola eb, M., Ajaz o, A., Akindinov bc, D., Aleksandrov c, B., Alessandro dd, D., Alexandre cu, A., Alici cx, L, A., Alkin c, J., Alme ai, T., Alt am, V., Altini ae, S., Altinpinar q, I., Altsybeev dv, C., Alves Garcia Prado dl, C., Andrei bw, A., Andronic cp, V., Anguelov cl, J., Anielski ay, T., Anticˇic ́ cq, F., Antinori da, P., Antonioli cx, L., Aphecetche df, H., Appelshäuser aw, N., Arbor bp, S., Arcelli z, N., Armesto p, R., Arnaldi dd, T., Aronsson eb, I. C., Arsene u, Cp, M., Arslandok aw, A., Augustinus ah, R., Averbeck cp, T. C., Awes cc, M. D., Azmi r, Ch, M., Bach am, A., Badalà cz, Y. W., Baek an, Bo, S., Bagnasco dd, R., Bailhache aw, V., Bairathi cj, R., Bala ci, A., Baldisseri n, F., Baltasar Dos Santos Pedrosa ah, J., Bán bd, R. C., Baral bf, R., Barbera aa, F., Barile ae, G. G., Barnaföldi ea, L. S., Barnby cu, V., Barret bo, J., Bartke di, M., Basile z, N., Bastid bo, S., Basu dw, B., Bathen ay, G., Batigne df, B., Batyunya bk, P. C., Batzing u, C., Baumann aw, I. G., Bearden by, H., Beck aw, C., Bedda cm, N. K., Behera ar, I., Belikov az, F., Bellini z, R., Bellwied dn, E., Belmont Moreno bi, G., Bencedi ea, S., Beole y, I., Berceanu bw, A., Bercuci bw, Y., Berdnikov cd, D., Berenyi ea, M. E., Berger ck, R. A., Bertens bb, D., Berzano y, L., Betev ah, A., Bhasin ci, A. K., Bhati cf, B., Bhattacharjee ao, J., Bhom d, L., Bianchi y, N., Bianchi bq, C., Bianchin bb, J., Bielcˇík ak, J., Bielcˇíková cb, A., Bilandzic by, S., Bjelogrlic bb, F., Blanco j, D., Blau c, C., Blume aw, F., Bock cl, Bs, A., Bogdanov bu, H., Bøggild by, M., Bogolyubsky de, F. V., Böhmer ck, L., Boldizsár ea, M., Bombara al, J., Book aw, H., Borel n, A., Borissov dz, Co, J., Bornschein am, F., Bossú bj, M., Botje bz, E., Botta y, S., Böttger av, P., Braun Munzinger cp, M., Bregant dl, T., Breitner av, T. A., Broker aw, T. A., Browning cn, M., Broz aj, Ak, E., Bruna dd, G. E., Bruno ae, D., Budnikov cr, H., Buesching aw, S., Bufalino dd, P., Buncic ah, O., Busch cl, Z., Buthelezi bj, D., Caffarri ab, X., Cai g, H., Caines eb, A., Caliva bb, E., Calvo Villar cv, V., Canoa Roman ah, F., Carena ah, W., Carena ah, F., Carminati ah, A., Casanova Díaz bq, J., Castillo Castellanos n, E. A. R., Casula w, V., Catanescu bw, C., Cavicchioli ah, C., Ceballos Sanchez i, J., Cepila ak, P., Cerello dd, B., Chang do, S., Chapeland ah, J. L., Charvet n, S., Chattopadhyay dw, S., Chattopadhyay ct, M., Cherney ce, C., Cheshkov du, B., Cheynis du, V., Chibante Barroso ah, D. D., Chinellato dn, Dm, P., Chochula ah, M., Chojnacki by, S., Choudhury dw, P., Christakoglou bz, C. H., Christensen by, P., Christiansen af, T., Chujo d, S. U., Chung co, C., Cicalo cy, L., Cifarelli l, Z, F., Cindolo cx, J., Cleymans ch, F., Colamaria ae, D., Colella ae, A., Collu w, M., Colocci z, G., Conesa Balbastre bp, Z., Conesa del Valle au, Ah, M. E., Connors eb, Contin x, G., J. G., Contreras k, T. M., Cormier cc, Dz, Y., Corrales Morales y, P., Cortese ad, I., Cortés Maldonado b, M. R., Cosentino b, Dl, F., Costa ah, P., Crochet bo, R., Cruz Albino k, E., Cuautle bh, L., Cunqueiro bq, A., Dainese da, R., Dang g, A., Danu bg, D., Das ct, I., Das au, K., Das ct, S., Das d, A., Dash dm, S., Dash ar, S., De dw, H., Delagrange df, A., Deloff bv, E., Dénes ea, G., D’Erasmo ae, G. O. V., de Barros dl, A., De Caro l, Ac, G., de Cataldo cw, J., de Cuveland am, A., De Falco w, D., De Gruttola ac, N., De Marco dd, S., De Pasquale ac, R., de Rooij bb, M. A., Diaz Corchero j, T., Dietel ay, R., Divià ah, D., Di Bari ae, S., Di Liberto db, A., Di Mauro ah, P., Di Nezza bq, Ø., Djuvsland q, A., Dobrin bb, T., Dobrowolski bv, D., Domenicis Gimenez dl, B., Dönigus aw, O., Dordic u, S., Dørheim ck, A. K., Dubey dw, A., Dubla bb, L., Ducroux du, P., Dupieux bo, A. K., Dutta Majumdar ct, R. J., Ehlers eb, D., Elia cw, H., Engel av, B., Erazmus ah, Df, H. A., Erdal ai, D., Eschweiler am, B., Espagnon au, M., Estienne df, S., Esumi d, D., Evans cu, S., Evdokimov de, G., Eyyubova u, D., Fabris da, J., Faivre bp, D., Falchieri z, A., Fantoni bq, M., Fasel cl, D., Fehlker q, L., Feldkamp ay, D., Felea bg, A., Feliciello dd, G., Feofilov dv, J., Ferencei cb, A., Fernández Téllez b, E. G., Ferreiro p, A., Ferretti y, A., Festanti ab, J., Figiel di, M. A. S., Figueredo dl, Dp, S., Filchagin cr, D., Finogeev ba, F. M., Fionda ae, E. M., Fiore ae, E., Floratos cg, M., Floris ah, S., Foertsch bj, P., Foka cp, S., Fokin c, E., Fragiacomo dc, A., Francescon ab, U., Frankenfeld cp, U., Fuchs ah, C., Furget bp, M., Fusco Girard ac, J. J., Gaardhøje by, M., Gagliardi y, A. M., Gago cv, M., Gallio y, D. R., Gangadharan, P., Ganoti cg, Cc, C., Garabatos cp, E., Garcia Solis m, C., Gargiulo ah, I., Garishvili bt, J., Gerhard am, M., Germain df, A., Gheata ah, M., Gheata bg, B., Ghidini ae, P., Ghosh dw, S. K., Ghosh d, P., Gianotti bq, P., Giubellino ah, E., Gladysz Dziadus di, P., Glässel cl, R., Gomez k, P., González Zamora j, S., Gorbunov am, L., Görlich di, S., Gotovac dh, L. K., Graczykowski dy, R., Grajcarek cl, A., Grelli bb, A., Grigoras ah, C., Grigoras ah, V., Grigoriev bu, A., Grigoryan a, S., Grigoryan bk, B., Grinyov c, N., Grion dc, J. F., Grosse Oetringhaus ah, J. Y., Grossiord du, R., Grosso ah, F., Guber ba, R., Guernane bp, B., Guerzoni z, M., Guilbaud du, K., Gulbrandsen by, H., Gulkanyan a, T., Gunji dr, A., Gupta ci, R., Gupta ci, K. H., Khan o, R., Haake ay, Ø., Haaland q, C., Hadjidakis au, M., Haiduc bg, H., Hamagaki dr, G., Hamar ea, L. D., Hanratty cu, A., Hansen by, J. W., Harris eb, H., Hartmann am, A., Harton m, D., Hatzifotiadou cx, S., Hayashi dr, S. T., Heckel aw, M., Heide ay, H., Helstrup ai, A., Herghelegiu bw, G., Herrera Corral k, B. A., Hess ag, K. F., Hetland ai, B., Hicks eb, B., Hippolyte az, J., Hladky be, P., Hristov ah, M., Huang q, T. J., Humanic, D., Hutter am, D. S., Hwang t, R., Ilkaev cr, I., Ilkiv bv, M., Inaba d, E., Incani w, G. M., Innocenti y, C., Ionita ah, M., Ippolitov c, M., Irfan r, M., Ivanov cp, V., Ivanov cd, O., Ivanytskyi c, A., Jachołkowski aa, P. M., Jacobs b, C., Jahnke dl, H. J., Jang bm, M. A., Janik dy, P. H. S. Y., Jayarathna dn, S., Jena ar, Dn, R. T., Jimenez Bustamante bh, P. G., Jones cu, H., Jung an, A., Jusko cu, S., Kalcher am, P., Kalinak bd, A., Kalweit ah, J., Kamin aw, J. H., Kang ec, V., Kaplin bu, S., Kar dw, A., Karasu Uysal bn, O., Karavichev ba, T., Karavicheva ba, E., Karpechev ba, U., Kebschull av, R., Keidel ed, B., Ketzer ck, M. M., Khan r, P., Khan ct, S. A., Khan dw, A., Khanzadeev cd, Y., Kharlov de, B., Kileng ai, B., Kim ec, D. W., Kim bm, An, D. J., Kim do, J. S., Kim an, M., Kim an, M., Kim ec, S., Kim t, T., Kim ec, S., Kirsch am, I., Kisel am, S., Kiselev bc, A., Kisiel dy, G., Kiss ea, J. L., Klay f, J., Klein cl, C., Klein Bösing ay, A., Kluge ah, M. L., Knichel cp, A. G., Knospe dj, C., Kobdaj ah, Dg, M., Kofarago ah, M. K., Köhler cp, T., Kollegger am, A., Kolojvari dv, V., Kondratiev dv, N., Kondratyeva bu, A., Konevskikh ba, V., Kovalenko dv, M., Kowalski ah, Di, S., Kox bp, G., Koyithatta Meethaleveedu ar, J., Kral do, I., Králik bd, F., Kramer aw, A., Kravcˇáková al, M., Krelina ak, M., Kretz am, M., Krivda cu, Bd, F., Krizek cb, Ap, M., Krus ak, E., Kryshen cd, M., Krzewicki cp, V., Kucˇera cb, Y., Kucheriaev c, T., Kugathasan ah, C., Kuhn az, P. G., Kuijer bz, I., Kulakov aw, J., Kumar ar, P., Kurashvili bv, A., Kurepin ba, A. B., Kurepin ba, A., Kuryakin cr, S., Kushpil cb, V., Kushpil cb, M. J., Kweon cl, At, Y., Kwon ec, P., Ladron de Guevara bh, C., Lagana Fernandes dl, I., Lakomov au, R., Langoy dx, C., Lara av, A., Lardeux df, A., Lattuca y, S. L., La Pointe dd, Bb, P., La Rocca aa, L., Leardini cl, G. R., Lee cu, I., Legrand ah, J., Lehnert aw, R. C., Lemmon ca, M., Lenhardt cp, V., Lenti cw, E., Leogrande bb, M., Leoncino y, I., León Monzón dk, P., Lévai ea, S., Li g, J., Lien dx, R., Lietava cu, S., Lindal u, V., Lindenstruth am, C., Lippmann cp, M. A., Lisa, H. M., Ljunggren af, D. F., Lodato bb, P. I., Loenne q, V. R., Loggins dz, V., Loginov bu, D., Lohner cl, C., Loizides b, X., Lopez bo, E., López Torres i, X. G., Lu cl, P., Luettig aw, M., Lunardon ab, J., Luo g, C., Luzzi ah, R., Ma eb, A., Maevskaya ba, M., Mager ah, D. P., Mahapatra bf, A., Maire cl, Az, M., Malaev cd, I., Maldonado Cervantes bh, L., Malinina bk, D., Mal’Kevich bc, P., Malzacher cp, A., Mamonov cr, L., Manceau dd, V., Manko c, F., Manso bo, V., Manzari ah, Cw, M., Marchisone y, J., Mareš be, A., Margotti cx, A., Marín cp, C., Markert ah, Dj, M., Marquard aw, I., Martashvili dq, N. A., Martin cp, P., Martinengo ah, M. I., Martínez b, G., Martínez García df, J., Martin Blanco df, Y., Martynov c, A., Mas df, S., Masciocchi cp, M., Masera y, A., Masoni cy, L., Massacrier df, A., Mastroserio ae, A., Matyja di, C., Mayer di, J., Mazer dq, R., Mazumder a, M. A., Mazzoni db, F., Meddi v, A., Menchaca Rocha bi, E., Meninno ac, J., Mercado Pérez cl, M., Meres aj, Y., Miake d, K., Mikhaylov bc, Bk, L., Milano ah, J., Milosevic u, A., Mischke bb, A. N., Mishra a, D., Mis ́kowiec cp, C. M., Mitu bg, J., Mlynarz dz, B., Mohanty dw, Bx, L., Molnar az, L., Montaño Zetina k, E., Montes j, M., Morando ab, D. A., Moreira De Godoy dl, S., Moretto ab, A., Morreale do, A., Morsch ah, V., Muccifora bq, E., Mudnic dh, S., Muhuri dw, M., Mukherjee dw, H., Müller ah, M. G., Munhoz dl, S., Murray ch, L., Musa ah, J., Musinsky bd, B. K., Nandi ar, R., Nania cx, E., Nappi cw, C., Nattrass dq, T. K., Nayak dw, S., Nazarenko cr, A., Nedosekin bc, M., Nicassio cp, M., Niculescu bg, B. S., Nielsen by, S., Nikolaev c, S., Nikulin c, V., Nikulin cd, B. S., Nilsen ce, F., Noferini l, Cx, P., Nomokonov bk, G., Nooren bb, A., Nyanin c, J., Nystrand q, H., Oeschler cl, Ax, S., Oh eb, S. K., Oh bl, An, 6, A., Okatan bn, L., Olah ea, J., Oleniacz dy, A. C., Oliveira Da Silva dl, J., Onderwaater cp, C., Oppedisano dd, A., Ortiz Velasquez af, A., Oskarsson af, J., Otwinowski cp, K., Oyama cl, Y., Pachmayer cl, M., Pachr ak, P., Pagano ac, G., Paic ́ bh, F., Painke am, C., Pajares p, S. K., Pal dw, A., Palmeri cz, D., Pant ar, V., Papikyan a, G. S., Pappalardo cz, W. J., Park cp, A., Passfeld ay, D. I., Patalakha de, V., Paticchio cw, B., Paul ct, T., Pawlak dy, T., Peitzmann bb, H., Pereira Da Costa n, E., Pereira De Oliveira Filho dl, D., Peresunko c, C. E., Pérez Lara bz, W., Peryt dy, A., Pesci cx, Y., Pestov e, V., Petrácˇek ak, M., Petran ak, M., Petris bw, M., Petrovici bw, C., Petta aa, M., Pikna aj, P., Pillot df, O., Pinazza ah, L., Pinsky dn, D. B., Piyarathna dn, M., Płoskon ́ b, M., Planinic cq, Dt, J., Pluta dy, S., Pochybova ea, P. L. M., Podesta Lerma dk, M. G., Poghosyan ah, Ce, E. H. O., Pohjoisaho ap, B., Polichtchouk de, N., Poljak cq, A., Pop bw, S., Porteboeuf Houssais bo, J., Porter b, V., Pospisil ak, B., Potukuchi ci, S. K., Prasad d, R., Preghenella cx, F., Prino dd, C. A., Pruneau dz, I., Pshenichnov ba, G., Puddu w, V., Punin cr, J., Putschke dz, H., Qvigstad u, A., Rachevski dc, S., Raha d, J., Rak do, A., Rakotozafindrabe n, L., Ramello ad, R., Raniwala cj, S., Raniwala cj, S. S., Räsänen ap, B. T., Rascanu aw, D., Rathee cf, A. W., Rauf o, V., Razazi w, K. F., Read dq, J. S., Real bp, K., Redlich bv, R. J., Reed eb, A., Rehman q, P., Reichelt aw, M., Reicher bb, F., Reidt cl, R., Renfordt aw, A. R., Reolon bq, A., Reshetin ba, F., Rettig am, J. P., Revol ah, K., Reygers cl, V., Riabov cd, R. A., Ricci br, T., Richert af, M., Richter u, P., Riedler ah, W., Riegler ah, F., Riggi aa, A., Rivetti dd, E., Rocco bb, M., Rodríguez Cahuantzi b, A., Rodriguez Manso bz, K., Røed u, E., Rogochaya bk, S., Rohni ci, D., Rohr am, D., Röhrich q, R., Romita dp, Ca, F., Ronchetti bq, L., Ronflette df, P., Rosnet bo, S., Rossegger ah, A., Rossi ah, F., Roukoutakis cg, A., Roy a, C., Roy az, P., Roy ct, A. J., Rubio Montero j, R., Russo y, E., Ryabinkin c, Y., Ryabov cd, A., Rybicki di, S., Sadovsky de, K., Šafarˇík ah, B., Sahlmuller aw, R., Sahoo a, P. K., Sahu bf, J., Saini dw, C. A., Salgado p, J., Salzwedel, S., Sambyal ci, V., Samsonov cd, X., Sanchez Castro az, Bh, F. J., Sánchez Rodríguez dk, L., Šándor bd, A., Sandoval bi, M., Sano d, G., Santagati aa, D., Sarkar dw, E., Scapparone cx, F., Scarlassara ab, R. P., Scharenberg cn, C., Schiaua bw, R., Schicker cl, C., Schmidt cp, H. R., Schmidt ag, S., Schuchmann aw, J., Schukraft ah, M., Schulc ak, T., Schuster eb, Y., Schutz ah, K., Schwarz cp, K., Schweda cp, G., Scioli z, E., Scomparin dd, P. A., Scott cu, R., Scott dq, G., Segato ab, J. E., Seger ce, I., Selyuzhenkov cp, J., Seo co, E., Serradilla j, Bi, A., Sevcenco bg, A., Shabetai df, G., Shabratova bk, R., Shahoyan ah, A., Shangaraev de, N., Sharma dq, Bf, S., Sharma ci, K., Shigaki aq, K., Shtejer y, Y., Sibiriak c, S., Siddhanta cy, T., Siemiarczuk bv, D., Silvermyr cc, C., Silvestre bp, G., Simatovic dt, R., Singaraju dw, R., Singh ci, S., Singha bx, Dw, V., Singhal dw, B. C., Sinha dw, T., Sinha ct, B., Sitar aj, M., Sitta ad, T. B., Skaali u, K., Skjerdal q, R., Smakal ak, N., Smirnov eb, R. J. M., Snellings bb, C., Søgaard af, R., Soltz bt, J., Song co, M., Song ec, F., Soramel ab, S., Sorensen dq, M., Spacek ak, I., Sputowska di, M., Spyropoulou Stassinaki cg, B. K., Srivastava cn, J., Stachel cl, I., Stan bg, G., Stefanek bv, M., Steinpreis, E., Stenlund af, G., Steyn bj, J. H., Stiller cl, D., Stocco df, M., Stolpovskiy de, P., Strmen aj, A. A. P., Suaide dl, M. A., Subieta Vasquez y, T., Sugitate aq, C., Suire au, M., Suleymanov o, R., Sultanov bc, M., Šumbera cb, T., Susa cq, T. J. M., Symons b, A., Szanto de Toledo dl, I., Szarka aj, A., Szczepankiewicz ah, M., Szymanski dy, J., Takahashi dm, M. A., Tangaro ae, J. D., Tapia Takaki au, A., Tarantola Peloni aw, A., Tarazona Martinez ah, M. G., Tarzila bw, A., Tauro ah, G., Tejeda Muñoz b, A., Telesca ah, C., Terrevoli w, A., Ter Minasyan bu, J., Thäder cp, D., Thomas bb, R., Tieulent du, A. R., Timmins dn, A., Toia da, Aw, H., Torii dr, V., Trubnikov c, W. H., Trzaska do, T., Tsuji dr, A., Tumkin cr, R., Turrisi da, T. S., Tveter u, J., Ulery aw, K., Ullaland q, A., Uras du, G. L., Usai w, M., Vajzer cb, M., Vala bk, L., Valencia Palomo au, S., Vallero y, Cl, P., Vande Vyvre ah, L., Vannucci br, J., Van Der Maarel bb, J. W., Van Hoorne ah, M., van Leeuwen bb, A., Vargas b, R., Varma ar, M., Vasileiou cg, A., Vasiliev c, V., Vechernin dv, M., Veldhoen bb, A., Velure q, M., Venaruzzo x, E., Vercellin y, S., Vergara Limón b, R., Vernet h, M., Verweij dz, L., Vickovic dh, G., Viesti ab, J., Viinikainen do, Z., Vilakazi bj, O., Villalobos Baillie cu, A., Vinogradov c, L., Vinogradov dv, Y., Vinogradov cr, T., Virgili ac, Y. P., Viyogi dw, A., Vodopyanov bk, M. A., Völkl cl, K., Voloshin bc, S. A., Voloshin dz, G., Volpe ah, B., von Haller ah, I., Vorobyev dv, D., Vranic cp, J., Vrláková al, B., Vulpescu bo, A., Vyushin cr, B., Wagner q, J., Wagner cp, V., Wagner ak, M., Wang g, Y., Wang cl, D., Watanabe d, M., Weber dn, J. P., Wessels ay, U., Westerhoff ay, J., Wiechula ag, J., Wikne u, M., Wilde ay, G., Wilk bv, J., Wilkinson cl, M. C. S., Williams cx, B., Windelband cl, M., Winn cl, C., Xiang g, C. G., Yaldo dz, Y., Yamaguchi dr, H., Yang bb, P., Yang g, S., Yang q, S., Yano aq, S., Yasnopolskiy c, J., Yi co, Z., Yin g, I. K., Yoo co, I., Yushmanov c, Zaccolo by, V., C., Zach ak, A., Zaman o, C., Zampolli cx, S., Zaporozhets bk, A., Zarochentsev dv, P., Závada be, N., Zaviyalov cr, H., Zbroszczyk dy, I. S., Zgura bg, M., Zhalov cd, F., Zhang g, H., Zhang g, X., Zhang bo, G, B, Y., Zhangg, C., Zhaou, D., Zhoug, F., Zhoug, Y., Zhoubb, H., Zhug, J., Zhudf, G, J., Zhug, X., Zhug, A., Zichichil, A., Zimmermann cl, M. B., Zimmermann ay, G., Zinovjev c, Y., Zoccarato du, M., Zynovyev c, and M., Zyzak aw
Subjects: Particle ratios, ALICE, High pT, Nuclear modification factor, Identified particle production, Particle ratio, LHC, Baryon anomaly
Abstract: Transverse momentum spectra of π±, K± and p(p ̄) up to pT = 20 GeV/c at mid-rapidity in pp, peripheral (60–80%) and central (0–5%) Pb–Pb collisions at √sNN = 2.76 TeV have been measured using the ALICE detector at the Large Hadron Collider. The proton-to-pion and the kaon-to-pion ratios both show a distinct peak at pT ≈ 3 GeV/c in central Pb–Pb collisions. Below the peak, pT < 3 GeV/c, both ratios are in good agreement with hydrodynamical calculations, suggesting that the peak itself is dominantly the result of radial flow rather than anomalous hadronization processes. For pT > 10 GeV/c particle ratios in pp and Pb–Pb collisions are in agreement and the nuclear modification factors for π±, K± and p(p ̄) indicate that, within the systematic and statistical uncertainties, the suppression is the same. This suggests that the chemical composition of leading particles from jets in the medium is similar to that of vacuum jets.
Published: 2014

38. OmpU as a biomarker for rapid discrimination between toxigenic and epidemic Vibrio cholerae O1/O139 and non-epidemic Vibrio cholerae in a modified MALDI-TOF MS assay

Author: H. Trip, Roos H. Mars-Groenendijk, Joanna A. Majchrzykiewicz-Koehorst, Ad L. de Jong, Evgeni Tsivtsivadze, Armand Paauw, Jonathan M.E. Heng, Jaran Strand Olsen, Marcin Niemcewicz, and Ricela Sellek
Subjects: Microbiology (medical), DNA, Bacterial, Molecular Sequence Data, Biology, medicine.disease_cause, Microbiology, Cholera, medicine, Humans, Adhesins, Bacterial, Peptide sequence, Vibrio cholerae, chemistry.chemical_classification, Bacteriological Techniques, Cholera toxin, Sequence Analysis, DNA, medicine.disease, Virology, Amino acid, Matrix-assisted laser desorption/ionization, Parasitology, chemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Bacterial outer membrane, Research Article
Abstract: Background Cholera is an acute diarrheal disease caused by Vibrio cholerae. Outbreaks are caused by a genetically homogenous group of strains from serogroup O1 or O139 that are able to produce the cholera toxin. Rapid detection and identification of these epidemic strains is essential for an effective response to cholera outbreaks. Results The use of ferulic acid as a matrix in a new MALDI-TOF MS assay increased the measurable mass range of existing MALDI-TOF MS protocols for bacterial identification. The assay enabled rapid discrimination between epidemic V. cholerae O1/O139 strains and other less pathogenic V. cholerae strains. OmpU, an outer membrane protein whose amino acid sequence is highly conserved among epidemic strains of V. cholerae, appeared as a discriminatory marker in the novel MALDI-TOF MS assay. Conclusions The extended mass range of MALDI-TOF MS measurements obtained by using ferulic acid improved the screening for biomarkers in complex protein mixtures. Differences in the mass of abundant homologous proteins due to variation in amino acid sequences can rapidly be examined in multiple samples. Here, a rapid MALDI-TOF MS assay was developed that could discriminate between epidemic O1/O139 strains and other less pathogenic V. cholerae strains based on differences in mass of the OmpU protein. It appeared that the amino acid sequence of OmpU from epidemic V. cholerae O1/O139 strains is unique and highly conserved.
Published: 2013

39. Reciprocal longitudinal relations between leader and follower effectiveness

Author: Herman Kuipers, Ad L. W. Vogelaar, and Human Performance Management
Subjects: Hierarchy, Experimental and Cognitive Psychology, Psychology, Social psychology, General Psychology, Social Sciences (miscellaneous), Reciprocal
Abstract: This study examined the longitudinal reciprocal effects between leader effectiveness and follower effectiveness (leaders lower in the hierarchy and groups of soldiers). The effectiveness of 60 grou...
Published: 1997

40. Eluent Jet Interface for Combining Capillary Liquid Flows with Electron Impact Mass Spectrometry

Author: Eric R. J. Wils, Charles E. Kientz, and Ad L. De Jong, and Albert G. Hulst
Subjects: Flow injection analysis, Chromatography, Column chromatography, Capillary action, Chemistry, Analytical chemistry, Separator (oil production), Gas chromatography, Mass spectrometry, Particle beam, Electron ionization, Analytical Chemistry
Abstract: A new interface based on an eluent jet in combination with a conventional gas chromatography momentum separator for use with electron impact mass spectrometry is described. The formation of the eluent jet is based on radio frequency inductive heating. The aerosol formation in the interface is discussed in relation to commercial particle beam (PB) interfaces. The interface is tested in combination with electron impact mass spectrometry using flow injection analysis at flow rates in the range of 5-15 μL/min commonly encountered in microcolumn liquid chromatography. Electron impact spectra at 1-10-ng levels are found to be comparable with reference spectra. In the single-ion mode, 50 pg of caffeine is detectable with a signal-to-noise ratio of 3 :1. Contrary to many other PB systems, linear calibration plots are obtained in the tested range of 3-200 ng of caffeine.
Published: 1996

41. Monitoring of in Vitro and in Vivo Exposure to Sulfur Mustard by GC/MS Determination of the N-Terminal Valine Adduct in Hemoglobin after a Modified Edman Degradation

Author: Daan Noort, Ad L. de Jong, A. Fidder, Hendrik P. Benschop, and Leo P. A. de Jong, and Hendrik C. Trap
Subjects: Male, Erythrocytes, Magnetic Resonance Spectroscopy, Alkylation, Guinea Pigs, Sulfur Radioisotopes, Toxicology, Gas Chromatography-Mass Spectrometry, Adduct, Hemoglobins, chemistry.chemical_compound, Isothiocyanates, Valine, Mustard Gas, Animals, Chemical Warfare Agents, Derivatization, Chromatography, High Pressure Liquid, Fluorocarbons, Chemical ionization, Chromatography, Dose-Response Relationship, Drug, Edman degradation, Chemistry, Sulfur mustard, General Medicine, Injections, Intravenous, Indicators and Reagents, Spectrophotometry, Ultraviolet, Hemoglobin, Thiocyanates
Abstract: We report that exposure to the chemical warfare agent sulfur mustard can be monitored by means of a modified Edman degradation involving selective release of the N-terminal valine adduct of hemoglobin with the agent. The degree of alkylation of the N-terminal valine in human hemoglobin is approximately 1-2% of the total alkylation induced in hemoglobin upon treatment of human blood with sulfur mustard. After modified Edman degradation, followed by derivatization with heptafluorobutyric anhydride, the obtained pentafluorophenyl thiohydantion derivative of the valine adduct could be analyzed at aor = 0.5 fmol level by means of GC/MS under negative ion chemical ionization conditions. Applying this procedure, in vitro exposure of human blood toor = 0.1 microM of sulfur mustard could be determined. In vivo exposure of guinea pigs could also be established at 48 h after intoxication intravenously with 0.5 mg/kg (0.06 LD50) of the agent.
Published: 1996

42. On your own in the desert

Author: Sander Dalenberg and Ad L. W. Vogelaar
Subjects: Desert (philosophy), Earth science, Sociology
Published: 2012

43. Wood, John Halsey, Jr. Going Dutch: Abraham Kuyper’s Struggle for a Free Church in the Nineteenth-Century Netherlands. Oxford Studies in Historical Theology. New York: Oxford University Press, 2013. 235 pp. $74.00

Author: Ad L. de Bruijne
Subjects: Philosophy, Religious studies, Historical theology, Theology
Published: 2014

44. The effect of a team strategy discussion on military team performance

Author: Bianca Beersma, Ad L. W. Vogelaar, Sander Dalenberg, Organization Sciences, Organization & Processes of Organizing in Society (OPOS), Network Institute, and Arbeids- en Organisatie Psychologie (Psychologie, FMG)
Subjects: Team composition, Teamwork, Knowledge management, SDG 16 - Peace, business.industry, media_common.quotation_subject, Applied psychology, SDG 16 - Peace, Justice and Strong Institutions, Team effectiveness, Experimental and Cognitive Psychology, Psychological safety, Justice and Strong Institutions, Task (project management), Team learning, Work (electrical), Team strategy, business, Psychology, General Psychology, Social Sciences (miscellaneous), media_common
Abstract: In modern military operations, people from diverging backgrounds often have to work together in ad hoc teams. These team members are often well trained to perform their own part of the teamwork. However, for optimal performance they should also act as a team. The question is how optimal team performance can be realized swiftly. In this study we investigated the effect of a brief team strategy discussion. We hypothesized that a brief team strategy discussion in an ad hoc team at the start of a mission has a significant positive effect on the development of a shared mental model, on team processes, and with that on team performance. In an experimental setting, 46 four-person military ad hoc teams were presented with the distributed dynamic decision-making task. We gave half of the teams an instruction to develop a team strategy in 10 minutes, whereas the other half received no such instruction. Teams were randomly assigned to the two conditions. The results supported our hypotheses. A further exploration of the data showed that the teams in the team strategy condition showed more initiative and leadership. Finally, we concluded that accuracy gained more from the team strategy discussion than speed of operations. The results have important implications for military training and practice.
Published: 2009

45. ProteomIQ blue, a potent post-stain for the visualization and subsequent mass spectrometry based identification of fluorescent stained proteins on 2D-gels

Author: Ben L. M. van Baar, Albert J. R. Heck, Marijke A. E. Mol, Dorien Wijte, and Ad L. De Jong
Subjects: Chromatography, Staining and Labeling, Chemistry, General Chemistry, Carbocyanines, Mass spectrometry, Biochemistry, Fluorescence, Stain, Staining, Sypro Ruby, chemistry.chemical_compound, Bacterial Proteins, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Organometallic Compounds, Protein identification, Electrophoresis, Gel, Two-Dimensional, Cyanine, Coloring Agents, Fluorescent Dyes
Abstract: Manual spot excision for protein identification from fluorescent stained two-dimensional (2-D) gels is hard to accomplish. Here, we explore the use of ProteomIQ Blue as a post-stain method for the visualization of fluorescent stained/labeled proteins. We show that ProteomIQ Blue post-staining is almost as sensitive as staining with SYPRO Ruby or cyanine dyes alone. More than 90% of the protein spots that are stained with the fluorescent stains are still detectable with ProteomIQ Blue. In protein identification by mass spectrometry, ProteomIQ Blue post-stained spots provide high sensitivity and high protein sequence coverage of the peptide mass maps in both MALDI-TOF-MS and ESI-MS/MS analyses. In conclusion, post-staining of fluorescent stained gels with ProteomIQ Blue provides a facile and a powerful method to achieve quantitative protein analysis as well as protein identification in the same semianalytical gel without requiring sophisticated/expensive robotic equipment.
Published: 2006

46. Identification of formaldehyde-induced modifications in proteins: reactions with insulin

Author: Ad L. De Jong, Gino J E Baart, Wim Jiskoot, Gideon F.A. Kersten, Jan ten Hove, Wim E. Hennink, Daan J.A. Crommelin, Bernard Metz, Mies J. van Steenbergen, and Hugo D. Meiring
Subjects: Pharmacology, Molecular Structure, Insulin, medicine.medical_treatment, Organic Chemistry, Molecular Sequence Data, Biomedical Engineering, Formaldehyde, Glycine, Pharmaceutical Science, Bioengineering, Treatment results, Mass Spectrometry, Molecular Weight, chemistry.chemical_compound, Cross-Linking Reagents, chemistry, Biochemistry, medicine, Biotechnology, Peptide Hydrolases
Abstract: Formaldehyde is frequently used to inactivate, stabilize, or immobilize proteins. The treatment results in a large variety of chemical modifications in proteins, such as the formation of methylol groups, Schiff bases, and methylene bridges. The purpose of the present study was to identify the stable formaldehyde-induced modifications in a small protein. Therefore, insulin was treated with excess formaldehyde (CH2O) or deuterated formaldehyde (CD2O). In a separate experiment, insulin was modified by formaldehyde (CH2O vs CD2O) and glycine. The mixture of CH2O-treated and CD2O-treated insulin was digested by the proteinase Glu-C. The peptide fragments obtained were analyzed by liquid chromatography-mass spectrometry (LC-MS). Seven intramolecular cross-links were identified in formaldehyde-treated insulin. Furthermore, eight out of the sixteen potentially reactive sites of the insulin molecule were modified by incubation with formaldehyde and glycine. Both the location and the chemical nature of the modifications could be assigned based on the mass increase of potential adducts as elucidated in our previous study (B. Metz et al. (2004) J. Biol. Chem. 279, 6235-6243). To confirm the assigned structures, LC-MS measurements with collision-induced dissociation (LC-MS/MS) were performed on insulin fragments. The results of the LC-MS/MS analyses agreed excellently with the assignments. The study showed that arginine, tyrosine, and lysine residues were very reactive. However, eight theoretically reactive residues did not show detectable modifications, probably because of their low intrinsic reactivity, inaccessibility, or both. The asparagine, glutamine, and histidine residues were not converted in insulin. The N-termini of insulin were partly converted to the expected imidazolidinone adducts, indicating that the protein conformation affects the accessibility and reactivity of these residues. In conclusion, this study shows that, based on our current insights in the chemistry of the reactions between proteins and formaldehyde, we are able to elucidate the location and nature of formaldehyde-induced modifications in a small protein. The approach followed in this study may be generally applicable to larger formaldehyde-treated proteins, such as toxoids used in vaccines.
Published: 2006

47. Identification of outer membrane proteins of Yersinia pestis through biotinylation

Author: Jim Hill, Sophie J. Smither, Ben L. M. van Baar, Richard W. Titball, Albert G. Hulst, and Ad L. De Jong
Subjects: Microbiology (medical), Streptavidin, Spectrometry, Mass, Electrospray Ionization, Yersinia pestis, Blotting, Western, Biology, Microbiology, Virulence factor, chemistry.chemical_compound, Biotin, Biotinylation, Electrophoresis, Gel, Two-Dimensional, Amino Acid Sequence, Molecular Biology, Plague, biology.organism_classification, Enterobacteriaceae, chemistry, Membrane protein, Biochemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Bacterial outer membrane, Bacterial Outer Membrane Proteins
Abstract: The outer membrane of Gram-negative bacteria contains proteins that might be good targets for vaccines, antimicrobials or detection systems. The identification of surface located proteins using traditional methods is often difficult. Yersinia pestis, the causative agent of plague, was labelled with biotin. Tagged proteins were visualised through streptavidin probing of Western blots. Seven biotinylated proteins of Y. pestis were identified including two porins and the putative virulence factor catalase peroxidase. Crown Copyright © 2006.
Published: 2006

48. Selective cytotoxic T-lymphocyte targeting of tumor immune escape variants

Author: Michael van der Veer, Per Grufman, Sandra A. Bres, Thorbald van Hall, Jan W. Drijfhout, Arnoud H. de Ru, Ferry Ossendorp, Sandra Laban, Rob Valentijn, Rienk Offringa, Kees L. M. C. Franken, Ad L. De Jong, Cornelis J. M. Melief, Frits Koning, Klas Kärre, Antoinette Teixeira, Elisabeth Z. Wolpert, Marjet Roseboom, Hans-Gustaf Ljunggren, Marcel Camps, Peter A. van Veelen, and Hugo D. Meiring
Subjects: Antigen presentation, Molecular Sequence Data, Genes, MHC Class I, Immunoglobulins, chemical and pharmacologic phenomena, Mice, Inbred Strains, Biology, CD8-Positive T-Lymphocytes, Major histocompatibility complex, Immunotherapy, Adoptive, General Biochemistry, Genetics and Molecular Biology, Epitope, Antiporters, Epitopes, Mice, Antigen, Cell Line, Tumor, MHC class I, Cytotoxic T cell, Animals, Immunologic Surveillance, Cell Line, Transformed, Mice, Knockout, Antigen Presentation, Vaccines, Synthetic, Antigen processing, Histocompatibility Antigens Class I, Genetic Variation, Membrane Transport Proteins, General Medicine, Transporter associated with antigen processing, Cell Transformation, Viral, Cytotoxicity Tests, Immunologic, Clone Cells, Mice, Inbred C57BL, Cell Transformation, Neoplastic, Immunology, Gene Targeting, biology.protein, Tumor Escape, Immunotherapy, T-Lymphocytes, Cytotoxic
Abstract: Defects in major histocompatibility complex (MHC) class I-restricted antigen presentation are frequently observed in human cancers and result in escape of tumors from cytotoxic T lymphocyte (CTL) immune surveillance in mice. Here, we show the existence of a unique category of CTLs that can prevent this escape. The CTLs target an alternative repertoire of peptide epitopes that emerge in MHC class I at the surface of cells with impaired function of transporter associated with antigen processing (TAP), tapasin or the proteasome. These peptides, although derived from self antigens such as the commonly expressed Lass5 protein (also known as Trh4), are not presented by normal cells. This explains why they act as immunogenic neoantigens. The newly discovered epitopes can be exploited for immune intervention against processing-deficient tumors through adoptive T-cell transfer or peptide vaccination.
Published: 2005

49. Forensic identification of neat ricin and of ricin from crude castor bean extracts by mass spectrometry

Author: Calle Nilsson, Ad. L. de Jong, Sten-Åke Fredriksson, Elisabeth Artursson, Ben L. M. van Baar, and Albert G. Hulst
Subjects: endocrine system, Molecular Sequence Data, Peptide, Ricin, Mass spectrometry, medicine.disease_cause, Analytical Chemistry, chemistry.chemical_compound, medicine, Sample preparation, Amino Acid Sequence, chemistry.chemical_classification, Chromatography, Molecular mass, biology, Toxin, Plant Extracts, Ricinus, Forensic Medicine, biology.organism_classification, Castor Bean, carbohydrates (lipids), enzymes and coenzymes (carbohydrates), Matrix-assisted laser desorption/ionization, chemistry, Biochemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
Abstract: The protein toxin ricin, which originates from the seeds of Ricinus communis plants, has been the subject of increased interest, due to its potential terrorist use. Exceptionally, this toxin is also subject to the Chemical Weapons Convention. In this paper, it is shown that mass spectrometry can be used to unambiguously verify the presence of ricin in crude toxin preparations. It is demonstrated that MALDI MS can be used for screening, either by direct analysis or by trypsin digestion and peptide mapping. Purified ricin from several varieties of R. communis was characterized by LC-ES MS(/MS). A crude ricin preparation from a single bean was similarly characterized. An LC method was set up with product ion MS/MS detection of selected marker peptides specific for ricin: T5, T7, T11, T12, and T13 from the A-chain and T3, T5, T14, T19, and T20 from the B-chain. This method was then used to unambiguously identify ricin in a crude preparation of ricin. The MALDI MS molecular weight analysis and the marker peptides LC-ES MS/MS analysis give a forensic level of identification of ricin when combined with activity testing.
Published: 2005

50. Biological evaluation of Tyr6 and Ser7 modified drosocin analogues

Author: Gijsbert A. van der Marel, Peter C de Visser, Herman S. Overkleeft, Daan Noort, Peter A. V. van Hooft, Anne-Marij de Vries, and Ad L. de Jong
Subjects: Stereochemistry, Clinical Biochemistry, Molecular Sequence Data, Pharmaceutical Science, Peptide, Microbial Sensitivity Tests, Protein degradation, Biochemistry, Chemical synthesis, chemistry.chemical_compound, Drug Discovery, Peptide synthesis, Serine, Humans, Amino Acid Sequence, Molecular Biology, Peptide sequence, Antibacterial agent, chemistry.chemical_classification, Organic Chemistry, Glycopeptides, Glycopeptide, Amino acid, chemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Molecular Medicine, Tyrosine
Abstract: An array of analogues of the cationic antimicrobial peptide drosocin was synthesized containing substitutions of Tyr6 and Ser7 in order to increase the proteolytic stability. Stabilizing the N-terminus with unnatural amino acids increased the serum stability of analogues by almost a factor 30 over an 8 h period. © 2005 Elsevier Ltd. All rights reserved.
Published: 2004

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