Search

Your search keyword '"F. Lemke"' showing total 48 results
Start Over Author "F. Lemke"
48 results on '"F. Lemke"'

1. Atypical presentation of CrimeanCongo haemorrhagic fever: Lessons learned

Author

H Krüger, R de Wet, F Lemke, L Blumberg, and J Weyer

Subjects
Medicine, Medicine (General), R5-920
Abstract

An atypical case of Crimean-Congo haemorrhagic fever is presented. The diagnosis of the case in the presence of several comorbidities was complicated and illustrates the importance of maintaining a high index of suspicion for viral haemorrhagic fever in cases presenting with multisystem disease and an epidemiological history that could present opportunities for exposure to a haemorrhagic fever virus.

Published
2019
Full Text
View/download PDF

2. Challenges in QCD matter physics --The scientific programme of the Compressed Baryonic Matter experiment at FAIR

Author

V. Jakovlev, R. Talukdar, Alberica Toia, V.M. Golovatyuk, P. Ivanov, Abhijit Bhattacharyya, M. Kohn, Yu. Onishchuk, M. Tanha, Suman Sau, E. Friske, L. Kumar, A. Roy, Valerica Baban, Yaping Wang, V. Blinov, D. Svirida, Pradip Kumar Sahu, D. Dementiev, A. Gomez Ramirez, M. Petris, Ming Shao, D. Blau, Yu. P. Tsyupa, A. Rost, D. P. Mahapatra, Y. F. Ryabov, D. Wielanek, Anju Bhasin, C. Lara, Saikat Biswas, Shusu Shi, E. P. Akishina, F. Seck, V. Jain, Hongfang Chen, O. Malyatina, B. Komkov, I. Carevic, V. Baublis, Raghunath Sahoo, D. Normanov, Tetyana Galatyuk, S. Amar-Youcef, Cristian Andrei, Yu. I. Bocharov, A. Vorobiev, M. Strikhanov, Y. Leifels, O. Petukhov, A. Petrovici, Dezso Varga, Oana Ristea, W. Verhoeven, J. Sánchez Rosado, Victor Golovtsov, S. Belogurov, E. Kryshen, M. Dey, Johannes Lehrbach, Y. P. Viyogi, A. V. Kazantsev, A. Himmi, M. Anđelić, Oleg Bezshyyko, Cheng Li, A. Raportirenko, Xu Cai, C. Kreidl, Daniela Bartos, T. Balog, Volker Lindenstruth, A. Chaus, M. Mohisin Khan, Mate Csanad, J. Pluta, A. Senger, Matthias Balzer, Christoph Blume, H. Appelshäuser, Di Jiang, B. Kämpfer, A. Lymanets, I. Berceanu, S. Gorbunov, S. Sarangi, V. Pospíšil, N. Heine, A. Veshikov, Yuanjing Li, V. Kushpil, Ch. Klein-Bösing, I. Selyuzhenkov, S. Razin, Guofeng Song, D. Belyakov, G. Berezin, V. Kyva, Andrei Ionut Herghelegiu, Heiko Engel, K. Schmidt, V. Klochkov, Alla Maevskaya, P.-A. Loizeau, L. Golinka-Bezshyyko, V.A. Karnaukhov, J. Bendarouach, C. Xiang, A.D. Sheremetiev, V. F. Chepurnov, Hr Schmidt, Zbigniew Sosin, M. Singla, I. Momot, O. Andreeva, I. Alexandrov, R. N. Singaraju, S. Avdeev, Evgeny Alexandrov, R. Płaneta, Gennady Ososkov, D. Hutter, A. Reinefeld, C.J. Schmidt, Andrei Dorokhov, Vikram Patel, K.-H. Becker, N. Kurepin, E. Lebedeva, C. P. Singh, Y. K. Sun, K. Jaaskelainen, Andras Szabo, J. Rożynek, Sanjeev Singh Sambyal, V. S. Negi, Krzysztof Piasecki, W. F. J. Müller, M. Baznat, N. Miftakhov, Feng Liu, N. Ahmad, L. Skoda, G. D. Kekelidze, Vladimir Ivanov, Krzysztof Kasinski, Xi-Wei Wang, D. Miskowiec, Serguei Volkov, Sudhir Raniwala, I. Tsakov, A. Nedosekin, Peter Senger, T. Barczyk, S. Dubnichka, C. Ristea, N.G. Tuturas, E. V. Atkin, D. Karmanov, W. Zabolotny, Tatiana Karavicheva, Subhasis Samanta, Yu.V. Zanevsky, S. Bähr, O. Batenkov, M. Petrovici, B. Milanovic, Muhammad Farooq, R. Karabowicz, I. Vassiliev, P. Staszel, Sheng Dong, Udo Wolfgang Kebschull, P. Koczon, Goutam Gangopadhyay, P. Zumbruch, Vladimir Plujko, Y. Berdnikov, Shue He, Volodymyr Vovchenko, V. Mialkovski, W. Zipper, T. Bus, O. Tarassenkova, S. K. Sahu, V. Militsija, Yu. Zaitsev, C. Müntz, S. K. Ghosh, Sushanta Tripathy, E. Rostchin, V. Shumikhin, I. Fröhlich, I. Panasenko, A. Laso Garcia, L. Dutka, Yu.S. Anisimov, B. Linnik, T. Tischler, A. Ivashkin, R. Kotte, Calin Besliu, T. Akishina, Rashmi Raniwala, Sheng Zheng, K. Koch, J. Kunkel, A. Shabunov, E. Lobanova, Wojciech Kucewicz, T. Breitner, M. Al-Turany, R. P. Adak, Claudiu Cornel Schiaua, S. Masciocchi, Zhongbao Yin, Xinjie Huang, Jens Wiechula, Nu Xu, I. Kisel, Christian Sturm, T. Mahmoud, V. Kalinin, A. Abuhoza, Mohd Danish Azmi, P. Zrelov, Jing Zhou, M. Dželalija, C. Deveaux, M. Goffe, Ke-Jun Wu, S. Strohauer, S. Bashir, D. Argintaru, B. Heß, A. Turowiecki, M. B. Golubeva, F. Ahmad, S. Gläßel, V. Plotnikov, Manuel Penschuck, Supriya Das, Grzegorz Kasprowicz, Vladislav Manko, O. Vasylyev, D. Kresan, L. Kudin, Yu. V. Gusakov, Dongdong Hu, Vladimir Nikulin, M. Ivanov, D. Gottschalk, Karl-Heinz Kampert, A. Kolosova, G. Caragheorgheopol, K. Dey, K. Mikhailov, Anand Kumar Dubey, J. Scholten, S. P. D. Figuli, T. Blank, Ajit Kumar, Vladimir Peshekhonov, Igor Pshenichnov, E. Badura, Michael Deveaux, I. Rostovtseva, M. Kiš, Jürgen Becker, Evgeny Karpechev, B. W. Kolb, Valery Pugatch, Xiaofeng Luo, I. Som, E. Ovcharenko, F.F. Guber, H. Büsching, H. Cherif, N. R. Panda, Zubayer Ahammed, R. Najman, Fouad Rami, M. Gumiński, J. Pieper, Jerzy Gajda, G. Kozlov, H. Jahan, A. Drozd, V. Butuzov, Joachim Stroth, I. K. Yoo, Thomas Janson, M. Petri, R. Holzmann, D. Finogeev, S. Golovnya, Ping Cao, E. Malankin, Buddhadeb Bhattacharjee, L. Meder, Junfeng Yang, Lei Zhao, C. Simon, S. Kuznetsov, I. Valin, M. Zyzak, H. Hartmann, T. Satława, Yi Wang, Anton Andronic, Daicui Zhou, Zebo Tang, M. Prokudin, V. Saveliev, Qiyan Li, I. M. Deppner, Mahitosh Mandal, F. Uhlig, J. A. Lucio Martínez, J. Book, L. Mik, S. Schatral, S. K. Pal, A. Petrovskiy, J. Pietraszko, B. Debnath, E. Usenko, O. Svoboda, Gy. Wolf, V.V. Elsha, J. Lehnert, Pengfei Lyu, S. Seddiki, Peter Fischer, Huanhuan Fan, D. Doering, J. Frühauf, C. Wendisch, Yu Zhang, V. Kozlov, P. Tlustý, Piotr Otfinowski, N. Baranova, Sergey Kiselev, J. Rautenberg, Dmitry Mal'kevich, I. Kadenko, I. Lobanov, Mikhail Zhalov, A. Rodriguez Rodriguez, D. Emschermann, Vikas Singhal, Pavel Akishin, M. Bach, P. Kravtsov, X. Zhu, C. Nandi, I. Korolko, Rongxing Yang, E. Nandy, D. Ivanischev, Anil Prakash, A. Semennikov, I. E. Yushmanov, S. Parzhitskiy, M. Vznuzdaev, A. Khvorostukhin, A. Kiryakov, Soma Mukherjee, LuYao Chen, M. Pugach, Piotr Kmon, J. Gebelein, V. Kleipa, C. Bergmann, Kai Schweda, S. Rabtsun, Victor Ivanov, Tivadar Kiss, M. Dreschmann, I. G. Alekseev, A. K. Kurilkin, A. Volochniuk, E. Krebs, A. Lebedev, V. Kramarenko, N. Topil'skaya, S. Das, S. Lebedev, S. Querchfeld, Madan M. Aggarwal, N.I. Zamiatin, Amrendra K. Singh, Swagata Mandal, A. Khanzadeev, C. Simons, Gilles Claus, U. Frankenfeld, V.V. Ivanov, A. Chernogorov, Pascal Dillenseger, V. Dobyrn, Z. Dubnichkova, S. Löchner, Bhartendu K. Singh, S. Ahmad, Rishat Sultanov, J. Kallunkathariyil, A. Wieloch, T. Matulewicz, R. Berendes, A. Shabanov, Saniya Khan, V. Friese, Anik Gupta, L. Kochenda, M. Kirejczyk, Pavel Kisel, Amlan Chakrabarti, Ashwini Kumar, Michal Koziel, A. Berdnikov, A. Sadovsky, T. O. Ablyazimov, S. Mahajan, M. Merkin, Robert Szczygiel, C. Pauly, Krzysztof Poźniak, F. Roether, Alexey Kurepin, Alexander Voronin, A. Bubak, Nikolai Shumeiko, Nicolas Winckler, A. V. Kryanev, Andrey Reshetin, A. Simakov, Sukalyan Chattopadhyay, E. M. Ilgenfritz, B. Sikora, Jihye Song, J. Hehner, Zhi Deng, M. Irfan, J. Saini, S. A. Lone, L. Naumann, D. Eschweiler, A. M. Marin Garcia, P. Kähler, O. Derenovskaya, A.P. Ierusalimov, Alexandru Jipa, K. Agarwal, T. Tolyhi, H. Malygina, Xingming Fan, Amalia Pop, Dmitry Golubkov, E. M. Verbitskaya, L. Radulescu, Ryszard S. Romaniuk, D. Pfeifer, Yifei Zhang, Rajarshi Ray, V. Zryuev, M. Teklishyn, M. Träger, S. Morozov, H. Flemming, A. Oancea, A. Wilms, P. Ghosh, A. Grzeszczuk, V. Mikhaylov, Patrick Simon Reichelt, Ankhi Roy, Sanguk Won, Vladimir Samsonov, T. Esanu, V. Akishina, D.V. Peshekhonov, A.I. Zinchenko, M. Żoładź, Xin Li, I. Sibiryak, J. Wüstenfeld, Aleksey Voronin, M. Korolev, Guangming Huang, A. Kugler, E. Kaptur, J. Michel, J. Tarasiuk, Manjit Kaur, A. Bychkov, F. Lemke, Bekhzod S Yuldashev, T. K. Bhattacharyya, S. Gorokhov, F. Schintke, P. Klaus, Adrian Byszuk, Ionel Lazanu, Dong Wang, Michael Dürr, M. Krieger, H. Deppe, Sibaji Raha, O. Sander, S. Kowalski, K. Wiśniewski, Alexander Malakhov, I. Filozova, Shengqin Feng, M. Calin, S. Reinecke, V. Kucher, M. Weber, A. Kovalchuk, V. Petráček, M. Adamczyk, K.K. Gudima, Johannes Peter Wessels, P. Sitzmann, J. Markert, V. K. Eremin, Alexandru Bercuci, Marc Winter, Mateusz Baszczyk, M.I. Ciobanu, E. Bao, M. Kuc, U. Brüning, O. V. Fateev, Piotr Maj, J. de Cuveland, M. G. Târzilă, Pavel Larionov, R. Averbeck, Jianping Cheng, Jacek Rauza, C. E. Muñoz Castillo, N. D'Ascenzo, O. Bertini, Wendi Deng, G. Kretschmar, I. Skwira-Chalot, W. Niebur, K. Oh, V. P. Ladygin, T. Morhardt, C. Höhne, M. G. Wiebusch, Partha Pratim Bhaduri, Dong Han, Oleg Karavichev, N. Herrmann, R. Visinka, F. Constantin, C. García Chávez, J. Brzychczyk, Sidharth Kumar Prasad, D. Soyk, V. V. Kirakosyan, W. Koenig, D. Bertini, Z. Majka, F. Khasanov, J. Eschke, P. Gryboś, E. Lavrik, V. Cătănescu, K. Siwek-Wilczyńska, P. K. Kurilkin, J.M. Heuser, Adeel Akram, Yu. Murin, Alexander Akindinov, A. K. Bhati, I. Kres, J. Förtsch, Rafal Kleczek, Jiajun Zheng, S. Manz, T. K. Nayak, Institut Pluridisciplinaire Hubert Curien (IPHC), Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), CBM, Centre National de la Recherche Scientifique (CNRS)-Université de Strasbourg (UNISTRA), and Université de Strasbourg (UNISTRA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)

Subjects
J/psi(3100), Phase transition, matter: interaction, Hadron, Nuclear Theory, hypernucleus, 7. Clean energy, 01 natural sciences, Critical point (thermodynamics), transport theory, hadron: gas, Nuclear Experiment, neutron star, QCD matter, Brookhaven RHIC Coll, quark gluon: plasma, Physics, Large Hadron Collider, fireball, elliptic flow, strong interaction, Observable, heavy ion, CERN LHC Coll, QCD matter, Quark-Gluon-Plasma (QGP), QCD phase diagram, strong interaction, hadronic matter, partonic matte, heavy-ion, 2-4.9 GeV/nucleon, Nuclear and High Energy Physics, Particle physics, CBM, charmonium, [PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th], Strong interaction, review, nonperturbative, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], symmetry: chiral, quantum chromodynamics: critical phenomena, strangeness, 0103 physical sciences, density: high, Darmstadt GSI FAIR, structure, 010306 general physics, equation of state, quantum chromodynamics: matter, 010308 nuclear & particles physics, High Energy Physics::Phenomenology, nucleus, temperature: high, baryon, Neutron star, Automatic Keywords, HADES, charm
Abstract

International audience; Substantial experimental and theoretical efforts worldwide are devoted to explore the phase diagram of strongly interacting matter. At LHC and top RHIC energies, QCD matter is studied at very high temperatures and nearly vanishing net-baryon densities. There is evidence that a Quark-Gluon-Plasma (QGP) was created at experiments at RHIC and LHC. The transition from the QGP back to the hadron gas is found to be a smooth cross over. For larger net-baryon densities and lower temperatures, it is expected that the QCD phase diagram exhibits a rich structure, such as a first-order phase transition between hadronic and partonic matter which terminates in a critical point, or exotic phases like quarkyonic matter. The discovery of these landmarks would be a breakthrough in our understanding of the strong interaction and is therefore in the focus of various high-energy heavy-ion research programs. The Compressed Baryonic Matter (CBM) experiment at FAIR will play a unique role in the exploration of the QCD phase diagram in the region of high net-baryon densities, because it is designed to run at unprecedented interaction rates. High-rate operation is the key prerequisite for high-precision measurements of multi-differential observables and of rare diagnostic probes which are sensitive to the dense phase of the nuclear fireball. The goal of the CBM experiment at SIS100 ( $\sqrt{s_{NN}}=$ 2.7--4.9 GeV) is to discover fundamental properties of QCD matter: the phase structure at large baryon-chemical potentials ( $\mu_B > 500$ MeV), effects of chiral symmetry, and the equation of state at high density as it is expected to occur in the core of neutron stars. In this article, we review the motivation for and the physics programme of CBM, including activities before the start of data taking in 2024, in the context of the worldwide efforts to explore high-density QCD matter.

Published
2017
Full Text
View/download PDF

3. CBM Collaboration

Author

T. Ablyazimov, A. Abuhoza, R. Adak, J. Adamczewski-Musch, M. Adamczyk, M.M. Aggarwal, Z. Ahammed, F. Ahmad, N. Ahmad, S. Ahmad, A. Akindinov, P. Akishin, E. Akishina, T. Akishina, V. Akishina, M. Al-Turany, E. Alexandrov, I. Alexandrov, S. Amar-Youcef, M. Anđelić, O. Andreeva, C. Andrei, A. Andronic, Yu. Anisimov, H. Appelshäuser, A. Arend, D. Argintaru, E. Atkin, S. Avdeev, R. Averbeck, M.D. Azmi, V. Baban, M. Bach, E. Badura, S. Baginyan, T. Balle, T. Balog, S. Bandyopadhyay, P. Banerjee, N. Baranova, T. Barczyk, D. Bartoş, S. Bashir, Z. Basrak, M. Baszczyk, O. Batenkov, V. Baublis, C. Baumann, M. Baznat, K.-H. Becker, T. Bel, S. Belogurov, J. Bendarouach, I. Berceanu, A. Bercuci, E. Berdermann, A. Berdnikov, Y. Berdnikov, R. Berendes, C. Bergmann, D. Bertini, O. Bertini, C. Beşliu, O. Bezshyyko, P.P. Bhaduri, A. Bhasin, A.K. Bhati, B. Bhattacharjee, A. Bhattacharyya, T.K. Bhattacharyya, S. Biswas, D. Blau, C. Blume, Yu. Bocharov, S. Böttger, M. Borysova, T. Breitner, U. Brüning, J. Brzychczyk, A. Bubak, H. Büsching, A. Bychkov, A. Byszuk, Xu Cai, M. Cãlin, Ping Cao, R. Čaplar, G. Caragheorgheopol, I. Carević, V. Cătănescu, A. Chakrabarti, S. Chatterji, Sanatan Chattopadhyay, Subhasis Chattopadhyay, Hongfang Chen, Jianping Cheng, V. Chepurnov, S. Chernenko, A. Chernogorov, Kyung-Eon Choi, M.I. Ciobanu, G. Claus, F. Constantin, V. Covlea, M. Csanád, N. D'Ascenzo, S. Das, K. Davkov, V. Davkov, J. de Cuveland, B. Debnath, D. Dementiev, Zhi Deng, H. Deppe, I. Deppner, O. Derenovskaya, C.A. Deveaux, M. Deveaux, K. Dey, M. Dey, P. Dillenseger, V. Dobyrn, D. Doering, A. Dorokhov, A. Drozd, A.K. Dubey, S. Dubnichka, A. Dubnichkova, M. Dürr, W. Dulinski, L. Dutka, M. Dželalija, D. Emschermann, H. Engel, V. Eremin, T. Eşanu, J. Eschke, D. Eschweiler, Jongsik Eum, Huanhuan Fan, O. Fateev, I. Filozova, D. Finogeev, P. Fischer, H. Flemming, U. Frankenfeld, V. Friese, E. Friske, I. Fröhlich, J. Frühauf, Á. Fülöp, J. Gajda, T. Galatyuk, A. Galkin, V. Galkin, G. Gangopadhyay, C. García Chávez, I. Gašparić, J. Gebelein, P. Ghosh, S.K. Ghosh, M. Goffe, L. Golinka-Bezshyyko, V. Golovatyuk, S. Golovnya, V. Golovtsov, M. Golubeva, D. Golubkov, A. Gómez Ramírez, S. Gorbunov, S. Gorokhov, D. Gottschalk, P. Gryboś, A. Grzeszczuk, F. Guber, K. Gudima, A. Gupta, Yu. Gusakov, A. Haldar, S. Haldar, H. Hartmann, J. Hehner, K. Heidel, N. Heine, E. Hellbär, A. Herghelegiu, N. Herrmann, B. Heß, J.M. Heuser, A. Himmi, C. Höhne, R. Holzmann, Guangming Huang, Xinjie Huang, J. Hutsch, D. Hutter, E. Iakovleva, A. Ierusalimov, E.-M. Ilgenfritz, M. Irfan, M. Ivanov, Valery Ivanov, Victor Ivanov, Vladimir Ivanov, A. Ivashkin, K. Jaaskelainen, H. Jahan, V. Jain, V. Jakovlev, T. Janson, A. Jipa, I. Kadenko, B. Kämpfer, S. Kalcher, V. Kalinin, K.-H. Kampert, Tae Im Kang, E. Kaptur, R. Karabowicz, O. Karavichev, T. Karavicheva, D. Karmanov, V. Karnaukhov, E. Karpechev, K. Kasiński, G. Kasprowicz, M. Kaur, A. Kazantsev, U. Kebschull, G. Kekelidze, M.M. Khan, S.A. Khan, A. Khanzadeev, F. Khasanov, A. Khvorostukhin, V. Kirakosyan, M. Kirejczyk, A. Kiryakov, M. Kiš, I. Kisel, P. Kisel, S. Kiselev, A. Kiss, T. Kiss, P. Klaus, R. Kłeczek, Ch. Klein-Bösing, V. Kleipa, P. Kmon, K. Koch, L. Kochenda, P. Koczoń, W. König, M. Kohn, B.W. Kolb, A. Kolosova, B. Komkov, J.M. Kopfer, M. Korolev, I. Korolko, R. Kotte, A. Kotynia, A. Kovalchuk, S. Kowalski, M. Koziel, G. Kozlov, P. Kravtsov, E. Krebs, C. Kreidl, D. Kresan, G. Kretschmar, M. Kretz, M. Krieger, E. Kryshen, W. Kucewicz, L. Kudin, A. Kugler, I. Kulakov, J. Kunkel, A. Kurepin, P. Kurilkin, V. Kushpil, V. Kyva, V. Ladygin, C. Lara, P. Larionov, A. Laso Garcia, E. Lavrik, I. Lazanu, A. Lebedev, S. Lebedev, E. Lebedeva, J. Lehnert, J. Lehrbach, F. Lemke, Cheng Li, Jin Li, Qiyan Li, Yuanjing Li, Yulan Li, V. Lindenstruth, S. Linev, B. Linnik, E. Litvinenko, Feng Liu, I. Lobanov, E. Lobanova, S. Löchner, P.-A. Loizeau, J.A. Lucio Martínez, A. Lymanets, A. Maevskaya, S. Mahajan, D.P. Mahapatra, T. Mahmoud, P. Maj, Z. Majka, A. Malakhov, E. Malankin, D. Malkevich, O. Malyatina, H. Malygina, S. Mandal, V. Manko, S. Manz, V. Marin, A.M. Marin Garcia, J. Markert, S. Masciocchi, T. Matulewicz, M. Merkin, V. Mialkovski, J. Michel, N. Miftakhov, K. Mikhailov, V. Mikhaylov, B. Milanović, V. Militsija, M.F. Mir, D. Miskowiec, T. Morhardt, W.F.J. Müller, C. Müntz, Yu. Murin, R. Najman, L. Naumann, T. Nayak, A. Nedosekin, B. Neumann, W. Niebur, V. Nikulin, D. Normanov, M. Nüssle, A. Oancea, Kunsu Oh, Y. Onishchuk, D. Osipov, G. Ososkov, D. Ossetski, P. Otfinowski, E. Ovcharenko, S. Pal, I. Panasenko, N.R. Panda, S. Parzhitskiy, C. Pauly, Haiping Peng, I. Peric, D. Peshekhonov, V. Peshekhonov, V. Petráček, M. Petriş, A. Petrovici, M. Petrovici, A. Petrovskiy, O. Petukhov, K. Piasecki, J. Pieper, J. Pietraszko, R. Płaneta, E. Plekhanov, V. Plotnikov, V. Plujko, J. Pluta, V. Poliakov, P. Polozov, A. Pop, V. Popov, V. Pospisil, B.V.K.S. Potukuchi, J. Pouryamout, K. Poźniak, A. Prakash, M. Prokudin, I. Pshenichnov, M. Pugach, V. Pugatch, S. Querchfeld, L. Radulescu, S. Raha, W. Raja, F. Rami, R. Raniwala, S. Raniwala, A. Raportirenko, J. Rautenberg, J. Rauza, R. Ray, S. Razin, P. Reichelt, S. Reinecke, A. Reshetin, C. Ristea, O. Ristea, F. Roether, R. Romaniuk, A. Rost, E. Rostchin, I. Rostovtseva, A. Roy, J. Rożynek, Yu. Ryabov, V. Rykalin, A. Sadovsky, S. Sadovsky, R. Sahoo, P.K. Sahu, J. Saini, S. Samanta, S.S. Sambyal, V. Samsonov, J. Sánchez Rosado, S. Sau, V. Saveliev, S. Schatral, C. Schiaua, C.J. Schmidt, H.R. Schmidt, K. Schmidt, K. Schweda, A. Scurtu, F. Seck, S. Seddiki, I. Selyuzhenkov, A. Semennikov, A. Senger, P. Senger, A. Shabunov, Ming Shao, M.K. Sharma, N. Shumeiko, V. Shumikhin, B. Sikora, A. Simakov, C. Simon, C. Simons, R.N. Singaraju, A.K. Singh, B.K. Singh, C.P. Singh, V. Singhal, K. Siwek-Wilczyńska, L. Škoda, I. Skwira-Chalot, I. Som, Jihye Song, I. Sorokin, Z. Sosin, D. Soyk, P. Staszel, A. Stavinskiy, E. Stephan, D. Storozhyk, M. Strikhanov, S. Strohauer, J. Stroth, C. Sturm, R. Sultanov, Yongjie Sun, O. Svoboda, R. Szczygieł, R. Talukdar, Zebo Tang, M. Tanha, J. Tarasiuk, O. Tarassenkova, M.-G. Târzilă, V. Tiflov, T. Tischler, P. Tlustý, A. Toia, T. Tolyhi, N. Topil'skaya, C. Trageser, P. Trivedy, I. Tsakov, Yu. Tsyupa, A. Turowiecki, F. Uhlig, E. Usenko, I. Valin, T. Vasiliev, I. Vassiliev, E. Verbitskaya, W. Verhoeven, A. Veshikov, R. Visinka, Y.P. Viyogi, S. Volkov, Yu. Volkov, A. Vorobiev, A. Voronin, V. Vovchenko, E. Vznuzdaev, M. Vznuzdaev, Dong Wang, Yaping Wang, Wang Yi, C. Wendisch, J.P. Wessels, M. Wiebusch, J. Wiechula, B. Wiedemann, D. Wielanek, A. Wieloch, N. Winckler, M. Winter, K. Wiśniewski, D. Wohlfeld, Gy. Wolf, Won Sanguk, J. Wüstenfeld, Changzhou Xiang, Xu Nu, Jun-Gyu Yi, Zhongbao Yin, In-Kwon Yoo, Qian Yue, B. Yuldashev, I. Yushmanov, W. Zabołotny, Yu. Zaitsev, Yu. Zanevsky, M. Zhalov, Ya Peng Zhang, Yifei Zhang, Daicui Zhou, Xianglei Zhu, A. Zinchenko, W. Zipper, M. Żoładź, P. Zrelov, V. Zryuev, P. Zumbruch, and M. Zyzak

Subjects
Nuclear and High Energy Physics
Published
2014
Full Text
View/download PDF

4. The CBM Collaboration

Author

A. Abuhoza, J. Adamczewski-Musch, M.M. Aggarwal, Z. Ahammed, F. Ahmad, N. Ahmad, S. Ahmad, A. Akindinov, P. Akishin, E. Akishina, T. Akishina, V. Akishina, M. Al-Turany, S. Amar-Youcef, M. Anđelić, C. Andrei, A. Andronic, Yu. Anisimov, H. Appelshäuser, A. Arend, D. Argintaru, T. Armbruster, E. Atkin, S. Avdeyev, M.D. Azmi, V. Baban, M. Bach, E. Badura, S. Baginyan, T. Balog, S. Bandyopadhyay, P. Banerjee, N. Baranova, D. Bartoş, S. Bashir, Z. Basrak, M. Baszczyk, O. Batenkov, V. Baublis, C. Baumann, K.-H. Becker, T. Bel, S. Belogurov, I. Berceanu, E. Berdermann, A. Berdnikov, Y. Berdnikov, R. Berendes, C. Bergmann, D. Bertini, C. Beşliu, O. Bezshyyko, P.P. Bhaduri, A. Bhasin, A.K. Bhati, B. Bhattacharjee, A. Bhattacharyya, T.K. Bhattacharyya, S. Biswas, D. Blau, C. Blume, Yu. Bocharov, S. Böttger, M. Borysova, B. Bozsogi, T. Breitner, U. Brüning, J. Brzychczyk, A. Bubak, A. Bychkov, Xu Cai, M. Cãlin, R. Čaplar, G. Caragheorgheopol, I. Carević, V. Cătănescu, A. Chakrabarti, S. Chatterji, Sanatan Chattopadhyay, Subhasis Chattopadhyay, Hongfang Chen, Jianping Cheng, V. Chepurnov, S. Chernenko, A. Chernogorov, M.I. Ciobanu, G. Claus, F. Constantin, V. Covlea, M. Csanád, N. DʼAscenzo, S. Das, K. Davkov, V. Davkov, J. de Cuveland, B. Debnath, Zhi Deng, H. Deppe, I. Deppner, O. Derenovskaya, M. Deveaux, K. Dey, M. Dey, P. Dillenseger, V. Dobyrn, D. Doering, M. Domachowski, A. Dorokhov, C.A. Dritsa, A.K. Dubey, S. Dubnichka, A. Dubnichkova, W. Dulinski, M. Dželalija, D. Emschermann, H. Engel, V. Eremin, T. Eşanu, J. Eschke, O. Fateev, P. Fischer, H. Flemming, U. Frankenfeld, V. Friese, I. Fröhlich, J. Frühauf, Á. Fülöp, J. Gajda, T. Galatyuk, A. Galkin, V. Galkin, G. Gangopadhyay, M.S. Ganti, C. García Chávez, I. Gašparić, J. Gebelein, P. Ghosh, S.K. Ghosh, M. Goffe, V. Golovatyuk, S. Golovnya, V. Golovtsov, M. Golubeva, D. Golubkov, S. Gorbunov, D. Gottschalk, P. Gryboś, A. Grzeszczuk, F. Guber, A. Gupta, Yu. Gusakov, A. Haldar, S. Haldar, M. Hartig, J. Hehner, K. Heidel, N. Heine, A. Herghelegiu, N. Herrmann, B. Heß, J.M. Heuser, A. Himmi, C. Höhne, R. Holzmann, Guangming Huang, J. Hutsch, D. Hutter, A. Ierusalimov, E.-M. Ilgenfritz, M. Irfan, Valery Ivanov, Victor Ivanov, Vladimir Ivanov, A. Ivashkin, K. Jaaskelainen, V. Jakovlev, T. Janson, A. Jipa, I. Kadenko, B. Kämpfer, S. Kalcher, V. Kalinin, K.-H. Kampert, Tae Im Kang, E. Kaptur, R. Karabowicz, O. Karavichev, T. Karavicheva, D. Karmanov, V. Karnaukhov, E. Karpechev, K. Kasiński, M. Kaur, A. Kazantsev, U. Kebschull, G. Kekelidze, M.M. Khan, S.A. Khan, A. Khanzadeev, F. Khasanov, V. Kirakosyan, M. Kirejczyk, M. Kiš, I. Kisel, P. Kisel, S. Kiselev, A. Kiss, T. Kiss, R. Kłeczek, Ch. Klein-Bösing, V. Kleipa, K. Koch, L. Kochenda, P. Koczoń, B. Kolb, B. Komkov, J.M. Kopfer, M. Korolev, I. Korolko, R. Kotte, A. Kotynia, A. Kovalchuk, S. Kowalski, M. Koziel, G. Kozlov, P. Kravtsov, C. Kreidl, D. Kresan, M. Kretz, M. Krieger, E. Kryshen, W. Kucewicz, L. Kudin, A. Kugler, I. Kulakov, J. Kunkel, A. Kurepin, V. Kyva, V. Ladygin, C. Lara, P. Larionov, A. Laso Garcia, E. Lavrik, I. Lazanu, A. Lebedev, S. Lebedev, E. Lebedeva, J. Lehrbach, F. Lemke, Cheng Li, Jin Li, Li Qyian, Yuanjing Li, Yulan Li, V. Lindenstruth, S. Linev, E. Litvinenko, Feng Liu, I. Lobanov, E. Lobanova, S. Löchner, P.-A. Loizeau, A. Lymanets, A. Maevskaya, S. Mahajan, D.P. Mahapatra, T. Mahmoud, P. Maj, Z. Majka, A. Malakhov, O. Malyatina, H. Malygina, J. Manjavidze, V. Manko, S. Manz, V. Marin, T. Matulewicz, M. Merkin, V. Mialkovski, N. Miftakhov, K. Mikhailov, B. Milanovic, V. Militsija, F. Mir, W.F.J. Müller, C. Müntz, Yu. Murin, L. Naumann, T. Nayak, B. Neumann, W. Niebur, V. Nikulin, M. Nüssle, A. Oancea, Oh Kunsu, Y. Onishchuk, G. Ososkov, D. Ossetski, P. Otfinowski, E. Ovcharenko, Pal Susanta, I. Panasenko, S. Parzhitskiy, C. Pauly, Haiping Peng, I. Peric, D. Peshekhonov, V. Peshekhonov, V. Petráček, M. Petriş, A. Petrovici, M. Petrovici, A. Petrovskiy, O. Petukhov, K. Piasecki, J. Pietraszko, E. Plekhanov, V. Plujko, V. Poliakov, P. Polozov, A. Pop, V. Popov, V. Pospisil, B.V.K.S. Potukuchi, J. Pouryamout, A. Prakash, M. Prokudin, I. Pshenichnov, V. Pugatch, S. Querchfeld, S. Raha, W. Raja, F. Rami, R. Raniwala, S. Raniwala, A. Raportirenko, J. Rautenberg, R. Ray, S. Razin, P. Reichelt, S. Reinecke, A. Reshetin, C. Ristea, O. Ristea, E. Rostchin, I. Rostovtseva, A. Roy, J. Rożynek, Yu. Ryabov, V. Rykalin, A. Sadovsky, S. Sadovsky, P.K. Sahu, J. Saini, S.S. Sambyal, V. Samsonov, J. Sanchez Rosado, V. Saveliev, S. Schatral, C. Schiaua, C.J. Schmidt, H.R. Schmidt, C. Schrader, K. Schweda, A. Scurtu, S. Seddiki, A. Semennikov, A. Senger, P. Senger, A. Shabunov, Ming Shao, M.K. Sharma, V. Shumikhin, B. Sikora, A. Simakov, C. Simon, C. Simons, R.N. Singaraju, A.K. Singh, B.K. Singh, C.P. Singh, V. Singhal, M. Singla, K. Siwek-Wilczynska, L. Škoda, Song Jihye, I. Sorokin, D. Soyk, P. Staszel, A. Stavinskiy, E. Stephan, D. Storozhyk, M. Strikhanov, J. Stroth, C. Sturm, Yongjie Sun, O. Svoboda, R. Szczygieł, R. Talukdar, Zebo Tang, O. Tarassenkova, M. Târzilă, V. Tiflov, T. Tischler, P. Tlustý, T. Tolyhi, N. Topilʼskaya, C. Trageser, P. Trivedy, I. Tsakov, Yu. Tsyupa, F. Uhlig, E. Usenko, I. Valin, T. Vasiliev, I. Vassiliev, E. Verbitskaya, W. Verhoeven, A. Veshikov, Y. Viyogi, S. Volkov, Yu. Volkov, A. Vorobiev, A. Voronin, E. Vznuzdaev, M. Vznuzdaev, Dong Wang, Yaping Wang, Yi Wang, C. Wendisch, J.P. Wessels, J. Wiechula, B. Wiedemann, M. Winter, K. Wisniewski, D. Wohlfeld, Gy. Wolf, J. Wüstenfeld, Changzhou Xiang, Xu Nu, Jun-Gyu Yi, Yin Zhongbao, In-Kwon Yoo, Qian Yue, I. Yushmanov, Yu. Zaitsev, Yu. Zanevsky, M. Zhalov, Ya Peng Zhang, Yifei Zhang, Zhou Daicui, Xianglei Zhu, A. Zinchenko, W. Zipper, M. Żoładź, P. Zrelov, V. Zryuev, P. Zumbruch, and M. Zyzak

Subjects
Nuclear and High Energy Physics
Published
2013
Full Text
View/download PDF

5. Behavioural and eye-movement outcomes in response to text-based reading treatment for acquired alexia

Author

Shannon F. Lemke and Esther Kim

Subjects
Adult, Male, Eye Movements, media_common.quotation_subject, Text reading, Fixation, Ocular, Neuropsychological Tests, Vocabulary, 050105 experimental psychology, Generalization, Psychological, 03 medical and health sciences, Fluency, 0302 clinical medicine, Arts and Humanities (miscellaneous), Reading (process), Aphasia, Outcome Assessment, Health Care, medicine, Humans, 0501 psychology and cognitive sciences, Applied Psychology, media_common, Dyslexia, Acquired, 05 social sciences, Rehabilitation, Dyslexia, Eye movement, Reading strategy, Linguistics, medicine.disease, Spelling, Neuropsychology and Physiological Psychology, Reading, medicine.symptom, Psychology, 030217 neurology & neurosurgery, Photic Stimulation, Cognitive psychology, Follow-Up Studies
Abstract

Text-based reading treatments, such as Multiple Oral Rereading (MOR) and Oral Reading for Language in Aphasia (ORLA) have been used successfully to remediate reading impairments in individuals with acquired alexia, but the mechanisms underlying such improvements are not well understood. In this study, an individual with acquired alexia who demonstrated reliance on a sub-lexical reading strategy (i.e., presence of spelling regularity effect and phonologically plausible errors) underwent 12 weeks of text-based reading treatment combining MOR and ORLA procedures. Behavioural assessments of single-word and text reading, along with eye-tracking assessments were conducted pre-treatment, post-treatment and at 5 month follow-up. Improved reading fluency (rate, accuracy) was observed for both trained and untrained passages. Evidence from behavioural and eye-tracking assessment suggested text-based reading treatment facilitated use of a lexical-semantic reading strategy. Increased frequency and lexicality effects, as well as a shift in initial landing position towards the centre of the word (the "optimal viewing position") were observed at post-treatment and follow-up assessments. These results demonstrate the potential utility of using eye movements as a parameter of interest in addition to traditional behavioural outcomes when investigating response to reading treatment.

Published
2015

6. GMDH algorithms for complex systems modelling

Author

J. A. Müller, F. Lemke, and A. G. Ivachnenko

Subjects
Artificial neural network, Mathematical model, Series (mathematics), Computer science, Applied Mathematics, Complex system, Process (computing), Contrast (statistics), Sampling (statistics), System of linear equations, Computer Science Applications, Control and Systems Engineering, Modeling and Simulation, Algorithm, Software
Abstract

At present, GMDH algorithms give us a way to identify and forecast economic processes in the case of noised and short input sampling. In contrast to neural networks, the results are explicit mathematical models, obtained in a relatively short time. For ill-defined objects with very big noises, better results are obtained by analog complexing methods. Nets with active neurons should be applied to increase accuracy. Active neurons are able, during the self-organizing process, to estimate which inputs are necessary to minimize the given objective function of the neuron. In the neuronet with such neurons, we have a twofold multilayered structure: neurons themselves are multilayered, and they will be united into a multilayered network. SelfOrganize! is an easy-to-use modelling tool which realizes twice-multilayered neu-ronets and enables the creation of time series, single input/single output, multi-input/single output and multi-input/multi-output systems (system of equations). Successful applications are show...

Published
1998
Full Text
View/download PDF

7. The CBM Collaboration

Author

V. Maiatski, Z. Basrak, Andrey Reshetin, Sukalyan Chattopadhyay, A. Raportirenko, V. Golovtsov, V. Ivanov, E. Kryshen, P. Akishin, P. Tlusty, Cs Soos, E. Vznuzdaev, M. Klein-Bøsing, M. Kachel, A. Semennikov, M. Dey, O. Torheim, A. Nadtochii, A. Kugel, A. Simakov, P. Zrelov, I. Rostovtseva, A. Chaus, V. Karasev, Zhi Deng, M. Winter, A. Khanzadeev, W. Dulinski, Yulan Li, Jianping Cheng, E. Rostchin, D. Ossetski, S. Kowalski, N.S. Topilskaya, H. Flemming, Amalia Pop, D. Karmanov, Vladimir Popov, A. Berdnikov, Calin Besliu, A. Soldatov, M. Chubarov, E. Badura, Yaping Wang, N. Abel, J. Rozynek, J. Manjavidze, L. Pal, I. Peric, D. Gottschalk, M. Ryzhinskiy, H. Engel, Mate Csanad, I. Carević, Udo Kebschull, Yi Wang, Min Sang Ryu, V. Ladygin, F.F. Guber, A. Poliakov, H. Fröning, Robert Szczygiel, Alla Maevskaya, E. Akishina, M. Koziel, P. Bhaduri, K. Jaaskelainen, R. De, R. Berendes, C. Garabatos, Zhongbao Yin, F. Khasanov, D.V. Peshekhonov, M. Borysova, M. De, S. Kiselev, Hayoung Lee, Daicui Zhou, E. Berdermann, C. Kreidel, D. P. Mahapatra, M. Merkin, Xiaolian Wang, A. Melnik, V. Manko, E. Denes, R. Kotte, A. Petrovici, A. Arefiev, A. Kazantsev, A. Chakraborti, C. J. Schmidt, P. Zelnicek, T. Sinha, C. Höhne, A. Kotynia, L. Boldizsar, S. Løchner, Ya Panasenko, Y. Bocharov, Valeriy Pozdniakov, Satarupa Bandyopadhyay, V. Rykalin, S. Böttger, M. Petris, V. I. Davkov, K. Mikhailov, P. Braun-Munzinger, U. Brüning, Ming Shao, B. Sikora, Joachim Stroth, G. Claus, J. Wessels, V. Mialkovski, A. Chernogorov, In Kwon Yoo, A. Gumenuik, Ju Gousakov, M. Petrovici, D. Kresan, Zebo Tang, G. Bashindzhagyan, D. Bertini, P. Fonte, M. R. DuttaMajumdar, P. Korobchuk, E. Grosse, A. Ivashkin, Yu Gilitsky, Byungsik Hong, K. Siwek-Wilczynska, J. Wüstenfeld, I. Vassiliev, Oleg Bezshyyko, A. K. Bhati, L. Skoda, G. D. Kekelidze, V. F. Chepurnov, P. Fischer, A. Bhattacharya, M. Kiš, M. N. Ukhanov, V. Galkin, A. Dubey, W. Niebur, Subhasis Chattopadhyay, G. Gangopadhyay, S. Seddiki, Y. Volkov, G. S.N. Murthy, Andrei Ionut Herghelegiu, Claudiu Cornel Schiaua, S. Pal, C. Müntz, Xu Cai, A. Gupta, Yu.V. Zanevsky, R. Männer, K. Wisniewski, Y. Saini, B. Komkov, J. Gebelein, L. Naumann, S. Chatterji, Bedangadas Mohanty, Z. Ahmad, H. Ströbele, Xianglei Zhu, N. Ahmad, S. Manz, M. Dželalija, A. Golutvin, O. Tarassenkova, I. Ilyushenko, K. Ullaland, V. Cǎtǎnescu, B. K. Singh, I. Korolko, Cheng Li, P A Loizeau, M. Krauze, A. Semak, Alexandru Jipa, A. Sadovsky, V. Tiflov, Yu.S. Anisimov, Alexander Dermenev, A. Wilk, T. Esanu, E. M. Kashif, Y. Riabov, Valery Ivanov, A.L. Lebedev, I. Deppner, E.V. Lobanova, Yapeng Zhang, L. Solin, A. K. Singh, A. Stavinskiy, T. Nayak, H. K. Soltveit, Ziping Zhang, K. Koch, A. Andronic, P. Gasik, Krzysztof Kasinski, D. González-Díaz, D. Dutta, R. Raniwala, A. Petrovskiy, S. N. Golovnya, Vladimir Nikulin, I. Berceanu, A.P. Ierusalimov, D. A. Konstantinov, I. Valin, J. Eschke, V. Rasin, A. Galkin, Y. Sviridov, Z. Majka, T. Kiss, T. Galatyuk, A. Roy, A. Kovalchuk, V.A. Victorov, S. Belogurov, M. Hartig, Oleg Karavichev, Probir Roy, A. Prakash, Yu. V. Kharlov, C. Steinle, M. Zoła̧dź, T. Akishina, A. S. Silaev, C. P. Singh, Serguei Volkov, G. B. Vakil, Anju Bhasin, C. Lara, V. Militsija, N. Heine, A. V. Ryazantsev, S. Amar-Youcef, A. K. Dutt-Mazumdar, A. Grzeszczuk, A. Laszlo, V. Singh, K. Heidel, Tatiana Karavicheva, I. Kadenko, J. Adamczewski, A. Kluev, J. Kecskemeti, N. Herrmann, E. Atkin, V. Dyatchenko, Krzysztof Piasecki, F. Lemke, N. Bondar, T. Matulewicz, G. Vesztergombi, J. Gajda, Yu. Tsyupa, Vladimir Peshekhonov, O. V. Fateev, Evgeny Karpechev, Qian Yue, Michael Deveaux, A. Lymanets, A. Himmi, G. Sharkov, T. Armbruster, O. Rogachevsky, O. Denisova, S. Raniwala, J. Hutsch, B. Kolb, M. Kirejczyk, Y. Berdnikov, Jin Li, Peter Senger, B. Debnath, H. Kalita, D. Das, Chuncheng Xu, V. Pospíšil, W. F.J. Müller, O. Malyatina, D. Røhrich, T. Dutta, V. Ammosov, L.G. Kudin, R. Čaplar, N. Korotkova, I. Yushmanov, M.S. Prokudin, A. Kiseleva, P. Polozov, V.M. Golovatyuk, P. Stolpovsky, I. Kudryashov, Shuaib Ahmad Khan, A. Mangiarotti, Alexey Kurepin, D. Storozhyk, D.M. Seliverstov, Mikhail Zhalov, B. Kämpfer, S. Baginyan, S. Müller-Klieser, C. Bergmann, R. N. Singaraju, V. Singhal, V.N. Zrjuev, M.B. Golubeva, Yu. Onishchuk, K. Antipin, I. Das, A. Kugler, H. Deppe, I. Lazanu, W. Zipper, M. Andelić, Gennady Ososkov, V. Zaets, S. Lashaev, Y. K. Sun, H. Essel, N. D'Ascenzo, N. Baranova, D. Golubkov, J. Brzychczyk, M. Ciobanu, P. Staszel, Kwang Souk Sim, V.M. Lucenko, Wenxue Gao, Sanatan Chattopadhyay, F. Uhlig, P. Gryboś, Tae Im Kang, K. I. Davkov, R. Ferreira Marques, E. Stephan, V. Jakovlev, M. Bogolyubsky, S. S. Sambyal, P. Maj, M. Korolev, C. Dritsa, A. Artamonov, A. Bubak, V. Kleipa, P. Ghosh, P. V.K.S. Baba, M. Irfan, A. I. Zinchenko, M. D. Azmi, Valery Pugatch, V. Covlea, V. Baublis, M. Calin, A. Kiss, T. Tolyhi, Y. Murin, J. Heuser, S. Igolkin, A. A. Voronin, P. Koczon, M. Alyushin, Jun Gyu Yi, D. Adamova, I. Fröhlich, Vladimir Plujko, Y. Zaitsev, I. Peshenichnov, I. Lobanov, V. Saveliev, Kai Schweda, I. Kisel, P. Trivedy, V. Samsonov, Yuanjing Li, Y. Sorokin, M. Nüssle, Md. F. Mir, Volker Lindenstruth, B. Bhattacharjee, E. Futo, Pradip Kumar Sahu, A. Akindinov, E. Matyushevskiy, C. Wendisch, R. Holzmann, S. Lebedev, Hongfang Chen, Victor Ivanov, G. Caragheorgheopol, A. Jinaru, E. Plekhanov, S. Gorbunov, E. Litvinenko, Y. P. Viyogi, F. Rami, M. Al-Turany, M. M. Khan, Igor Gašparić, V. Shevchenko, A. Vorobiev, V. Friese, H. Appelshäuser, Cristian Andrei, Ch. Klein-Bösing, A. Scurtu, Junghan Kim, A. Dorokhov, S. A. Sadovsky, S. Linev, A. Wurz, S. Velica, C. Schrader, S. P. Chernenko, Manjit Kaur, Z. Fodor, S. A. Gorokhov, Alexander Malakhov, D. Cozma, M. Strikhanov, V. Petráček, and Madan M. Aggarwal

Subjects
Physics, Nuclear and High Energy Physics, Irfan, baryonic matter, strangeness, QCD, Theology
Abstract

N. Abel 21, J. Adamczewski 12, D. Adamova 45, M.M. Aggarwal 10, N. Ahmad 2, Z. Ahmad 30, A. Akindinov 36, P. Akishin 16, E. Akishina 16, T. Akishina 16, M. Al-Turany 12, M. Alyushin 39, S. Amar-Youcef 17, V. Ammosov 43, M. Andelic 47, C. Andrei 6, A. Andronic 12, Yu. Anisimov 14, K. Antipin 17, H. Appelshauser 17, A. Arefiev 36, T. Armbruster 23, A. Artamonov 43, E. Atkin 39, M.D. Azmi 2, P.V.K.S. Baba 25, E. Badura 12, S. Baginyan 16, S. Bandyopadhyay 29, N. Baranova 37, G. Bashindzhagyan 37, Z. Basrak 55, V. Baublis 18, S. Belogurov 36, I. Berceanu 6, E. Berdermann 12, A. Berdnikov 50, Y. Berdnikov 50, R. Berendes 40, C. Bergmann 40, D. Bertini 12, C. Besliu 7, O. Bezshyyko 33, P. Bhaduri 30, A. Bhasin 25, A.K. Bhati 10, B. Bhattacharjee 19, A. Bhattacharya 29, Y. Bocharov 39, M. Bogolyubsky 43, L. Boldizsar 9, N. Bondar 18, M. Borysova 34, S. Bottger 21, P. Braun-Munzinger 12, U. Bruning 23, J. Brzychczyk 32, A. Bubak 26, R. Caplar 55, Xu Cai 54, M. Calin 7, G. Caragheorgheopol 6, I. Carevic 47, V. Catanescu 6, A. Chakraborti 29, S. Chatterji 12, Subhasis Chattopadhyay 30, Sukalyan Chattopadhyay 28, Sanatan Chattopadhyay 29, A. Chaus 34, Hongfang Chen 20, Jianping Cheng 3, V. Chepurnov 14, S. Chernenko 14, A. Chernogorov 36, M. Chubarov 49, M. Ciobanu 12, G. Claus 51, V. Covlea 7, D. Cozma 6, M. Csanad 8, N. D’Ascenzo 41, D. Das 28, I. Das 28, V. Davkov 15, K. Davkov 15, M. De22, R. De51, B. Debnath 19, E. Denes 9, Zhi Deng 3, O. Denisova 16, H. Deppe 12, I. Deppner 22, A. Dermenev 35, M. Deveaux 17, M. Dey 30, A. Dorokhov 51, C. Dritsa (IPHC Strasbourg), 12, A. Dubey 30, W. Dulinski 51, A.K. Dutt-Mazumdar 28, T. Dutta 12, D. Dutta 12, M.R. DuttaMajumdar 30, V. Dyatchenko 43, M. Dželalija 47, H. Engel 21, T. Esanu 7, J. Eschke 12, H. Essel 12, O. Fateev 14, R. Ferreira Marques 11, P. Fischer 23, H. Flemming 12, Z. Fodor 9, P. Fonte 11, I. Frohlich 17, H. Froning 23, V. Friese 12, E. Futo 9, I. Gasparic 55, J. Gajda 31, T. Galatyuk 12, V. Galkin 41, A. Galkin 41, G. Gangopadhyay 29, Wenxue Gao 23, C. Garabatos 12, P. Gasik 53, J. Gebelein 21, P. Ghosh 30, Yu. Gilitsky 43, V. Golovatyuk 14, S. Golovnya 43, V. Golovtsov 18, M. Golubeva 35, D. Golubkov 36, A. Golutvin 36, D. Gonzalez-Diaz 12, S. Gorbunov 21, S. Gorokhov 43, D. Gottschalk 21, Ju. Gousakov 15, E. Grosse 13, P. Gryboś 31, A. Grzeszczuk 26, F. Guber 35, A. Gumenuik 39, A. Gupta 25, M. Hartig 17, K. Heidel 13, N. Heine 40, A. Herghelegiu 6, N. Herrmann 22, J. Heuser 12, A. Himmi 51, C. Hohne 12, R. Holzmann 12, Byungsik Hong 46, J. Hutsch 13, A. Ierusalimov 14, S. Igolkin 49, I. Ilyushenko 39, Tae Im Kang 46, M. Irfan 2, Valery Ivanov 16, V. Ivanov 18, Victor Ivanov 16, A. Ivashkin 35, K. Jaaskelainen 51, V. Jakovlev 49, A. Jinaru 7, A. Jipa 7, M. Kachel 31, I. Kadenko 33, H. Kalita 19, B. Kampfer 13, V. Karasev 49, O. Karavichev 35, T. Karavicheva 35, D. Karmanov 37, E. Karpechev 35, E.M. Kashif 2, K. Kasinski 31, Manjit Kaur 10, A. Kazantsev 38, U. Kebschull 21, J. Kecskemeti 9, G. Kekelidze 15, M.M. Khan 2, S.A. Khan 48, A. Khanzadeev 18, Yu. Kharlov 43, F. Khasanov 36, M. Kis 55, Junghan Kim 44, M. Kirejczyk 53, I. Kisel 12, S. Kiselev 36, A. Kiseleva 12, T. Kiss 9, A. Kiss 8, Ch. Klein-Bosing 40, M. Klein-Bosing 40, V. Kleipa 12, A. Kluev 39, K. Koch 12, P. Koczon 12, B. Kolb 12, B. Komkov 18, D. Konstantinov 43, P. Korobchuk 43, M. Korolev 37, I. Korolko 36, N. Korotkova 37, R. Kotte 13, A. Kotynia 12, A. Kovalchuk 34, S. Kowalski 26, M. Koziel 51, M. Krauze 26, C. Kreidel 23, D. Kresan 12, E. Kryshen 18, L. Kudin 18, I. Kudryashov 36, A. Kugel 23, A. Kugler 45, A. Kurepin 35, S. Lochner 12, V. Ladygin 14, C. Lara 21, S. Lashaev 49, A. Laszlo 9, I. Lazanu 7, A. Lebedev (JINR-LIT Dubna) 12, S. Lebedev (JINR-LIT Dubna) 12, Hayoung Lee 44, F. Lemke 23, Cheng Li 20, Yuanjing Li 3, Yulan Li 3, Jin Li 3, V. Lindenstruth 21, S. Linev 12, E. Litvinenko 16, I. Lobanov 43, E. Lobanova 43, P. Loizeau 22, Nuclear Physics A 830 (2009) 942c–944c

Published
2009
Full Text
View/download PDF

8. Function words of lexical bundles: the relation of frequency and reduction

Author

Benjamin V. Tucker, Shannon F. Lemke, and Antoine Tremblay

Subjects
Reduction (complexity), Acoustics and Ultrasonics, Arts and Humanities (miscellaneous), Relation (database), Duration (music), Speech recognition, Bundle, Function word, Production (computer science), Function (mathematics), Word (group theory), Mathematics
Abstract

Studies of spontaneous speech have shown frequency effects on the amount of reduction produced by speakers, demonstrating that predictability facilitates production of a target word [Shi (2005); Jurafsky (2001); Bell (2003)]. This paper investigates the amount of reduction produced in laboratory recorded speech and considers the effect of frequency on the duration of function words in four‐word sequences. It is also found that the influence of frequency has an effect on holistically storing these bundles. An interaction between word position and the third‐order transitional probability (ABC → D) has been established, indicating that greater third‐order transitional probabilities predict shorter function word durations in the first and second positions of a bundle, and, therefore, involve more durational reduction. The current research shows that, just as frequency affects reduction in spontaneous speech, there is an effect in laboratory produced speech as well. These findings indicate that multiword sequences are stored as lexical units.

Published
2009
Full Text
View/download PDF

9. Theoretical Investigation of Auger Recombination in PbSnTe Structures

Author

F. Lemke and M. Mocker

Subjects
chemistry.chemical_classification, business.product_category, Auger effect, Analytical chemistry, Mineralogy, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Auger, symbols.namesake, chemistry, symbols, Die (manufacturing), business, Inorganic compound
Abstract

An approximate analytical formula of the Auger rate is developed, describing the rate in dependence on the dimension parameter v with v = 3, 2, 1 for bulk, quasi-two-dimensional, and quasi-one-dimensional structures, respectively. The main influence to the Auger coefficient is due to the increased effective gap in low-dimensional structures, leading to an increased activation energy and therefore in lead chalcogenides to a reduced Auger rate compared to the bulk. The effects of anisotropy and of the changed matrix elements modify this main effect in such a way, that Auger recombination in some special planes and directions is more effective than in others. In dieser Arbeit wird eine analytische Naherungsformel fur die Auger-Rate angegeben, die die Rate in Abhangigkeit von einem Dimensionsparameter v beschreibt, wobei v die Werte 3, 2 und 1 fur Volumen-, quasi-zweidimensionale und quasi-eindimensionale Strukturen annimmt. Die groste Auswirkung auf den Auger-Koeffizienten hat die in niederdimensionalen Strukturen wachsende effektive Energielucke, die zu einem Anwachsen der Aktivierungsenergie und damit in Bleichalkogeniden zu einer verringerten Auger-Rate im Vergleich zum Volumen fuhrt. Die Effekte der Anisotropie und der geanderten Matrixelemente modifizieren diesen Haupteffekt, so das die Auger-Rekombination in einigen Ebenen und Richtungen effektiver als in anderen ist.

Published
1991
Full Text
View/download PDF

11. Theoretical results on the efficiency of Auger recombination in low dimensional PbSnTe structures

Author

M. Mocker and F. Lemke

Subjects
chemistry.chemical_classification, Materials science, Auger effect, Quantum wire, Activation energy, Condensed Matter Physics, Molecular physics, Auger, symbols.namesake, chemistry, symbols, Density of states, General Materials Science, Electrical and Electronic Engineering, Multiplicity (chemistry), Inorganic compound, Curse of dimensionality
Abstract

The Auger coefficients CAνD are calculated for PbSnTe bulk material (ν=3) and for Q1D (ν=1) and Q2D (ν=2) structures, respectively. Regarding the most effective two valley process, a variation of activation energy, multiplicity and of the effective density of states can strongly reduce the Auger effect in defined directories of the low dimensional structures. The modification of matrix elements within in envelope function approach is discussed.

Published
1991
Full Text
View/download PDF

12. Identifying Hidden Needs : Creating Breakthrough Products

Author

K. Goffin, F. Lemke, U. Koners, K. Goffin, F. Lemke, and U. Koners

Subjects
Strategic planning, New products--Marketing
Abstract

Too many new products fail. New products which are hard to differentiate from existing products won't capture the customer's imagination. The failure is due to a poor understanding of customers'needs. Companies need to take a radical approach to identifying customers'real needs, and this book demonstrates innovative ways to achieve this.

Published
2010

13. Dispersion tomography of an organic photonic-wire microcavity

Author

Robert Brückner, H. Fröb, S. I. Hintschich, Andreas Mischok, Christoph Reinhardt, Vadim G. Lyssenko, F. Lemke, Karl Leo, Alex Zakhidov, and Publica

Subjects
Materials science, Physics and Astronomy (miscellaneous), medicine.diagnostic_test, business.industry, Physics::Optics, Optical microcavity, law.invention, Organic semiconductor, Optics, law, Dispersion (optics), medicine, Optoelectronics, Stimulated emission, Tomography, Photonics, Optical tomography, business, Lasing threshold
Abstract

We investigate the complex mode structure in microcavities with multidimensional optical confinement. Our active material is composed of the organic blend Alq(3): DCM, embedded into a microcavity containing arrays of photonic wires, facilitating strong lateral confinement. We directly record the energy dispersion for one (k) over right arrow vector component while the second lateral (k) over right arrow component is scanned. Thereby, we obtain a detailed dispersion tomogram of the cavity resonances, showing excellent agreement with our optical model. We are able to exceed the lasing threshold and observe stimulated emission not only from the bottom of the cavity parabola, but also from higher order modes.

Published
2013
Full Text
View/download PDF

24. Synthesis, transformation, and general pharmacologic activity in 1,4-benzodiazepine-3,5-diones

Author

Ned D. Heindel, William P. Fives, Thomas F. Lemke, Jay E. Rowe, Harry W. Snady, and Richard A. Carrano

Subjects
Central Nervous System, Benzodiazepine, Chemistry, medicine.drug_class, Body Weight, Guinea Pigs, Blood Pressure, Rats, Inbred Strains, Benzazepines, Ketones, Motor Activity, Combinatorial chemistry, Rats, Mice, Transformation (genetics), Ileum, Drug Discovery, Cats, medicine, Animals, Molecular Medicine, Anticonvulsants
Published
1971
Full Text
View/download PDF

28. Diaminoquinoline antimalarials

Author

Ned D. Heindel, Ibrahim S. Bechara, Cyrus J. Ohnmacht, James Molnar, Thomas F. Lemke, and Peter D. Kennewell

Subjects
Antimalarials, Chemistry, Mice, Plasmodium, Chemical Phenomena, Aedes, Drug Discovery, Quinolines, Molecular Medicine, Animals, Chickens
Published
1969

29. Cyclization of aniline-acetylenedicarboxylate adducts. A modified Conrad-Limpach method for the synthesis of potential antimalarials

Author

Sally M. Lemke, Cyrus John Ohnmacht, Peter D. Kennewell, Thomas F. Lemke, Ibrahim S. Bechara, Ned D. Heindel, and James Molnar

Subjects
Aniline Compounds, Acetylenedicarboxylate, Quinones, Medicinal chemistry, Adduct, chemistry.chemical_compound, Antimalarials, Mice, Aniline, chemistry, Fumarates, Alkynes, Drug Discovery, Methods, Quinolines, Molecular Medicine, Animals
Published
1968

31. Synthesis and selected pharmacology of anthranilamides

Author

Ned D. Heindel, William P. Fives, Thomas F. Lemke, and Richard A. Carrano

Subjects
Central Nervous System, Analgesics, Chemistry, Stereochemistry, Cns depression, medicine.drug_physiologic_effect, Anti-Inflammatory Agents, Pharmaceutical Science, Rats, Inbred Strains, Pharmacology, Ring (chemistry), Amides, Rats, Nucleophile, medicine, Animals, ortho-Aminobenzoates
Abstract

A series of anthranilamides of diverse structure were prepared by the nucleophilic ring opening of isatoic anhydrides. Sixteen analogs, 10 of them previously unknown in the literature, were submitted to general pharmacologic screening. Several of the compounds displayed CNS depression, anti-inflammatory-analgesic, and antitremor activities.

Published
1971

36. Angeborner Mangel des Penis

Author

F. Lemke

Subjects
business.industry, Medicine, Cell Biology, General Medicine, Anatomy, business, Molecular Biology, Pathology and Forensic Medicine
Published
1893
Full Text
View/download PDF

38. Bactericidal and fungicidal activity of anthranilate esters

Author

Velmer B. Fish, Ned D. Heindel, Thomas F. Lemke, and Sally M. Lemke

Subjects
Antifungal Agents, Xanthomonas, Chemical Phenomena, Chemistry, Physical, Chemistry, Staphylococcus, Methylation, Anti-Bacterial Agents, Fungicide, Aspergillus, Anti-Infective Agents, Drug Discovery, Escherichia coli, Erwinia, Molecular Medicine, Organic chemistry, ortho-Aminobenzoates
Published
1968
Full Text
View/download PDF

39. TUBERCULOSIS OF THE LUNGS TREATED BY COMPRESSION WITH NITROGEN AFTER THE METHOD OF MURPHY

Author

A. F. Lemke

Subjects
medicine.medical_specialty, Tuberculosis, Lung, business.industry, respiratory system, medicine.disease, Compression (physics), Surgery, Serous fluid, medicine.anatomical_structure, Effusion, Pleurisy, Pulmonary tuberculosis, medicine, business, Lung tissue
Abstract

More than two years have elapsed since the idea of artificially compressing a tuberculous lung was put into extensive practice. During this time the pathology of compressed tuberculous lungs has been carefully studied, the literature has been more thoroughly searched for the expressions of clinicians and pathologists as to the value of compression of tuberculous lungs, such as results from pleurisy with effusion, either serous or purulent, and a series of experiments on dogs has been made to determine the effect compression has upon healthy lung tissue and to observe what changes, if any, are to be found in the pleura as the result of the prolonged contact with these membranes of agents used for compression, such as nitrogen and normal-salt solution. At the Columbus meeting of theAmerican Medical AssociationI reported in detail 53 cases of pulmonary tuberculosis, in its various stages, that had been treated by means

Published
1901
Full Text
View/download PDF

40. REPORT OF CASES OF PULMONARY TUBERCULOSIS, TREATED WITH INTRAPLEURAL INJECTIONS OF NITROGEN, WITH A CONSIDERATION OF THE PATHOLOGY OF COMPRESSION OF A TUBERCULOUS LUNG

Author

A. F. Lemke

Subjects
medicine.medical_specialty, Pathology, Tuberculosis, Lung, medicine.diagnostic_test, business.industry, General Medicine, Pleural cavity, medicine.disease, Surgery, medicine.anatomical_structure, Pneumothorax, Pulmonary tuberculosis, medicine, Sputum, Right upper lobe, Respiratory sounds, medicine.symptom, business
Abstract

Case 26. —Mr. J. S., aged 29, was examined November 3. His family is free from tuberculosis. In the spring of 1896 his illness began gradually with cough and expectoration, followed by a severe attack of hemoptysis; in the spring of 1898 a second attack of hemoptysis. Since that time his sputum has often been mixed with blood; weight 145 pounds; pulse 104; temperature 99.5 F. There are relative dulness, highpitched respiratory sounds and crepitant râles over the right apex and the greater portion of the right upper lobe. October 4: 125 cubic inches of nitrogen was injected into the pleural cavity. The pneumothorax was perfect, with very slight inconvenience to the patient. October 11: Weight is 150 pounds; the cough considerably diminished; temperature 99 F; pulse 100. He feels generally improved. No report since October 11. Case 27. —Mr. J. M., aged 32, was examined Nov. 17, 1898. His

Published
1899
Full Text
View/download PDF

41. The effects of online social network size and intimacy on happiness through social capital

Author

Andreas Munzel, Jean-Philippe Galan, Lars Meyer-Waarden, Centre de Recherche en Management (CRM), Institut d'Administration des Entreprises - Toulouse (IAE)-Centre National de la Recherche Scientifique (CNRS)-Université Toulouse 1 Capitole (UT1), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées, Institut de Recherche en Gestion des Organisations (IRGO), Université Montesquieu - Bordeaux 4-Institut d'Administration des Entreprises (IAE) - Bordeaux, F. Lemke (coord.), Newcastle University Business School, and Galan, Jean-Philippe

Subjects
[SHS.GESTION]Humanities and Social Sciences/Business administration, [SHS.GESTION] Humanities and Social Sciences/Business administration, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2014

42. The Importance of Corporate Reputation for Sustainable Supply Chains: A Systematic Literature Review, Bibliometric Mapping, and Research Agenda.

Author

von Berlepsch D, Lemke F, and Gorton M

Abstract

Corporate Reputation (CR) is essential to value generation and is co-created between a company and its stakeholders, including supply chain actors. Consequently, CR is a critical and valuable resource that should be managed carefully along supply chains. However, the current CR literature is fragmented, and a general definition of CR is elusive. Besides, the academic CR debate largely lacks a supply chain perspective. This is not surprising, as it is very difficult to collect reliable data along supply chains. When supply chains span the globe, data collection is especially challenging, as the chain consists of multiple suppliers and subcontractors, positioned at different tier levels. Recognizing this, the paper examines firstly the current state of CR research through a systematic literature review from a business perspective. The review is combined with a bibliometric mapping approach to show the most influential research clusters, representative of CR research streams and their contributors. This process highlights that the connection between CR and supply chain issues represents a major research gap. Consequently, this paper introduces a research agenda connecting these the two traditionally separated research fields., Competing Interests: Conflict of interestThe research was and is always in line with current law and there are no potential conflicts of interest involved in this joint research paper., (© The Author(s) 2022.)

Published
2022
Full Text
View/download PDF

43. The effect of traffic-light labels and time pressure on estimating kilocalories and carbon footprint of food.

Author

Panzone LA, Sniehotta FF, Comber R, and Lemke F

Subjects
Consumer Behavior, Food, Humans, Nutritive Value, Carbon Footprint, Food Labeling
Abstract

Food consumption decisions require consumers to evaluate the characteristics of products. However, the literature has given limited attention to how consumers determine the impact of food on health (e.g., kilocalories) and on the environment (e.g., carbon footprint). In this exercise, 1511 consumers categorised 43 food products as healthy/unhealthy and good/bad for the environment, and estimated their kilocalories and carbon footprint, which were known to the investigator. The task was performed either with no stimuli (a control group), under time pressure only, with traffic-light labels only, or both. Results show that traffic-light labels: 1) operate through improvements in knowledge, rather than facilitating information processing under pressure; 2) improve the ability to rank products by both kilocalories and carbon footprint, rather than the ability to use the metric; 3) reduce the threshold used to categorise products as unhealthy/bad for the environment, whilst raising the threshold used to classify products as good for the environment (but not healthy). Notably, traffic-light increase accuracy by reducing the response compression of the metric scale. The benefits of labels are particularly evident for carbon footprint. Overall, these results indicate that consumers struggle to estimate numerical information, and labels are crucial to ensure consumers make sustainable decisions, particularly for unfamiliar metrics like carbon footprint., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published
2020
Full Text
View/download PDF

44. Diffraction-limited axial scanning in thick biological tissue with an aberration-correcting adaptive lens.

Author

Philipp K, Lemke F, Scholz S, Wallrabe U, Wapler MC, Koukourakis N, and Czarske JW

Abstract

Diffraction-limited deep focusing into biological tissue is challenging due to aberrations that lead to a broadening of the focal spot. The diffraction limit can be restored by employing aberration correction for example with a deformable mirror. However, this results in a bulky setup due to the required beam folding. We propose a bi-actuator adaptive lens that simultaneously enables axial scanning and the correction of specimen-induced spherical aberrations with a compact setup. Using the bi-actuator lens in a confocal microscope, we show diffraction-limited axial scanning up to 340 μm deep inside a phantom specimen. The application of this technique to in vivo measurements of zebrafish embryos with reporter-gene-driven fluorescence in a thyroid gland reveals substructures of the thyroid follicles, indicating that the bi-actuator adaptive lens is a meaningful supplement to the existing adaptive optics toolset.

Published
2019
Full Text
View/download PDF

45. A large comparison of integrated SAR/QSAR models of the Ames test for mutagenicity $ .

Author

Benfenati E, Golbamaki A, Raitano G, Roncaglioni A, Manganelli S, Lemke F, Norinder U, Lo Piparo E, Honma M, Manganaro A, and Gini G

Subjects
Computer Simulation, Quantitative Structure-Activity Relationship, Models, Molecular, Mutagenicity Tests, Structure-Activity Relationship
Abstract

Results from the Ames test are the first outcome considered to assess the possible mutagenicity of substances. Many QSAR models and structural alerts are available to predict this endpoint. From a regulatory point of view, the recommendation from international authorities is to consider the predictions of more than one model and to combine results in order to develop conclusions about the mutagenicity risk posed by chemicals. However, the results of those models are often conflicting, and the existing inconsistency in the predictions requires intelligent strategies to integrate them. In our study, we evaluated different strategies for combining results of models for Ames mutagenicity, starting from a set of 10 diverse individual models, each built on a dataset of around 6000 compounds. The novelty of our study is that we collected a much larger set of about 18,000 compounds and used the new data to build a family of integrated models. These integrations used probabilistic approaches, decision theory, machine learning, and voting strategies in the integration scheme. Results are discussed considering balanced or conservative perspectives, regarding the possible uses for different purposes, including screening of large collection of substances for prioritization.

Published
2018
Full Text
View/download PDF

46. Aspherical high-speed varifocal mirror for miniature catadioptric objectives.

Author

Wapler MC, Lemke F, Alia G, and Wallrabe U

Abstract

We present a varifocal mirror based on a piezo-actuated glass membrane that can be used as a secondary mirror in miniature Cassegrain-type mirror- or catadioptric objectives. The mirror section has a diameter of 10 mm on a clear membrane diameter of 23 mm, with a focal range of ±8 m -1 and a response time on the millisecond-scale. The two piezo layers enable an aspherical tuning range that covers the elliptic, parabolic and hyperbolic regime over most of the focal range. We demonstrate the application of the mirror in a simple catadioptric telefocus objective with a focal length of 68 mm at an aperture of 22 mm and a thickness of 16.6 mm.

Published
2018
Full Text
View/download PDF

47. Comparison of ability tests administered online and in the laboratory.

Author

Ihme JM, Lemke F, Lieder K, Martin F, Müller JC, and Schmidt S

Subjects
Adolescent, Adult, Female, Humans, Intelligence Tests, Male, Middle Aged, Problem Solving, Quality Control, User-Computer Interface, Young Adult, Internet, Neuropsychological Tests
Abstract

As the Internet, the global medium of the future, expands exponentially, it has become increasingly relevant to scientific research. So far, there is but little evidence that online testing is suitable for collecting ability-test data. The present article aims to shed light on some aspects of the issue by comparing the performance in a computer-administered ability test of one lab sample and two online samples using a quasi-experimental design. Mean score differences appeared, but can be explained by differences in age and education, and were not due to the test setting (online vs. laboratory). Also, there were no structural differences between the achievement scores of both samples. Some limitations on generalizability are discussed.

Published
2009
Full Text
View/download PDF

48. QSAR models for Daphnia magna toxicity prediction of benzoxazinone allelochemicals and their transformation products.

Author

Lo Piparo E, Fratev F, Lemke F, Mazzatorta P, Smiesko M, Fritz JI, and Benfenati E

Subjects
Animals, Benzoxazines, Benzoxazoles chemistry, Oxazines chemistry, Oxazines metabolism, Quantitative Structure-Activity Relationship, Triticum chemistry, Benzoxazoles metabolism, Benzoxazoles toxicity, Daphnia drug effects, Oxazines toxicity, Pheromones toxicity
Abstract

The overall objective of this study is the ecotoxicological characterization of the benzoxazinone 2,4-dihydroxy-7-methoxy-1,4-benzoxazin-3-one (DIMBOA), the benzoxazolinones benzoxazolin-2-one (BOA) and 6-methoxybenzoxazolin-2-one (MBOA), and their transformation products: phenoxazinones 2-acetylamino-7-methoxy-3H-phenoxazin-3-one (AAMPO), 2-acetylamino-3H-phenoxazin-3-one (AAPO), 2-amino-7-methoxy-3H-phenoxazin-3-one (AMPO), and 2-amino-3H-phenoxazin-3-one (APO); aminophenol 2-aminophenol AP); acetamide N-(2-hydroxyphenyl)acetamide (HPAA); and malonamic acid amide N-(2-hydroxyphenyl)malonamic acid (HPMA). A comparison between empirical results and theoretical ones using rules-based prediction of toxicity was done, and it can be concluded that only the degradation metabolites exhibited significant ecotoxic effect. Using synthetic pesticides knowledge, several QSAR models were trained with various approaches and descriptors. The models generated exhibited good internal predictive ability (R(cv)2 > 0.6) and were used to predict the toxicity of the natural compounds studied.

Published
2006
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results