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450 results on '"Zink, J."'

1. White Paper on Light Sterile Neutrino Searches and Related Phenomenology

Author

Acero, M. A., Argüelles, C. A., Hostert, M., Kalra, D., Karagiorgi, G., Kelly, K. J., Littlejohn, B., Machado, P., Pettus, W., Toups, M., Ross-Lonergan, M., Sousa, A., Surukuchi, P. T., Wong, Y. Y. Y., Abdallah, W., Abdullahi, A. M., Akutsu, R., Alvarez-Ruso, L., Alves, D. S. M., Aurisano, A., Balantekin, A. B., Berryman, J. M., Bertólez-Martínez, T., Brunner, J., Blennow, M., Bolognesi, S., Borusinski, M., Cianci, D., Collin, G., Conrad, J. M., Crow, B., Denton, P. B., Duvall, M., Fernández-Martinez, E., Fong, C. S., Foppiani, N., Forero, D. V., Friend, M., García-Soto, A., Giganti, C., Giunti, C., Gandhi, R., Ghosh, M., Hardin, J., Heeger, K. M., Ishitsuka, M., Izmaylov, A., Jones, B. J. P., Jordan, J. R., Kamp, N. W., Katori, T., Kim, S. B., Koerner, L. W., Lamoureux, M., Lasserre, T., Leach, K. G., Learned, J., Li, Y. F., Link, J. M., Louis, W. C., Mahn, K., Meyers, P. D., Maricic, J., Marko, D., Maruyama, T., Mertens, S., Minakata, H., Mocioiu, I., Mooney, M., Moulai, M. H., Nunokawa, H., Ochoa-Ricoux, J. P., Oh, Y. M., Ohlsson, T., Päs, H., Pershey, D., Robertson, R. G. H., Rosauro-Alcaraz, S., Rott, C., Roy, S., Salvado, J., Scott, M., Seo, S. H., Shaevitz, M. H., Smiley, M., Spitz, J., Stachurska, J., Thakore, T., Ternes, C. A., Thompson, A., Tseng, S., Vogelaar, B., Weiss, T., Wendell, R. A., Wright, T., Xin, Z., Yang, B. S., Yoo, J., Zennamo, J., Zettlemoyer, J., Zornoza, J. D., Ahmad, S., Basto-Gonzalez, V. S., Bowden, N. S., Cañas, B. C., Caratelli, D., Chang, C. V., Chen, C., Classen, T., Convery, M., Davies, G. S., Dennis, S. R., Djurcic, Z., Dorrill, R., Du, Y., Evans, J. J., Fahrendholz, U., Formaggio, J. A., Foust, B. T., Gatti, H. Frandini, Garcia-Gamez, D., Gariazzo, S., Gehrlein, J., Grant, C., Gomes, R. A., Hansell, A. B., Halzen, F., Ho, S., Zink, J. Hoefken, Jones, R. S., Kunkle, P., Li, J. -Y., Li, S. C., Luo, X., Malyshkin, Yu., Massaro, D., Mastbaum, A., Mohanta, R., Mumm, H. P., Nebot-Guinot, M., Neilson, R., Ni, K., Nieves, J., Gann, G. D. Orebi, Pandey, V., Pascoli, S., Qian, X., Rajaoalisoa, M., Roca, C., Roskovec, B., Saul-Sala, E., Saldaña, L., Scholberg, K., Shakya, B., Slocum, P. L., Snider, E. L., Steiger, H. Th. J., Steklain, A. F., Stock, M. R., Sutanto, F., Takhistov, V., Tsai, Y. -D., Tsai, Y. -T., Venegas-Vargas, D., Wallbank, M., Wang, E., Weatherly, P., Westerdale, S., Worcester, E., Wu, W., Yang, G., and Zamorano, B.

Subjects
High Energy Physics - Experiment, Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Phenomenology, Physics - Instrumentation and Detectors
Abstract

This white paper provides a comprehensive review of our present understanding of experimental neutrino anomalies that remain unresolved, charting the progress achieved over the last decade at the experimental and phenomenological level, and sets the stage for future programmatic prospects in addressing those anomalies. It is purposed to serve as a guiding and motivational "encyclopedic" reference, with emphasis on needs and options for future exploration that may lead to the ultimate resolution of the anomalies. We see the main experimental, analysis, and theory-driven thrusts that will be essential to achieving this goal being: 1) Cover all anomaly sectors -- given the unresolved nature of all four canonical anomalies, it is imperative to support all pillars of a diverse experimental portfolio, source, reactor, decay-at-rest, decay-in-flight, and other methods/sources, to provide complementary probes of and increased precision for new physics explanations; 2) Pursue diverse signatures -- it is imperative that experiments make design and analysis choices that maximize sensitivity to as broad an array of these potential new physics signatures as possible; 3) Deepen theoretical engagement -- priority in the theory community should be placed on development of standard and beyond standard models relevant to all four short-baseline anomalies and the development of tools for efficient tests of these models with existing and future experimental datasets; 4) Openly share data -- Fluid communication between the experimental and theory communities will be required, which implies that both experimental data releases and theoretical calculations should be publicly available; and 5) Apply robust analysis techniques -- Appropriate statistical treatment is crucial to assess the compatibility of data sets within the context of any given model., Comment: Contribution to Snowmass 2021 by the NF02 Topical Group (Understanding Experimental Neutrino Anomalies). Published in J. Phys. G as a Major Report

Published
2022
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2. Scaling K2. IV. A Uniform Planet Sample for Campaigns 1-8 and 10-18

Author

Zink, J. K., Hardegree-Ullman, K. K., Christiansen, J. L., Bhure, S., Adkins, B. Duffy, Petigura, E. A., Dressing, C. D., Crossfield, I. J. M., and Schlieder, J. E.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

We provide the first full K2 transiting exoplanet sample, using photometry from Campaigns 1-8 and 10-18, derived through an entirely automated procedure. This homogeneous planet candidate catalog is a crucial to perform a robust demographic analysis of transiting exoplanets with K2. We identify 747 unique planet candidates and 57 multi-planet systems. Of these candidates, 366 have not been previously identified, including one resonant multi-planet system and one system with two short-period gas giants. By automating the construction of this list, measurements of sample biases (completeness and reliability) can be quantified. We carried out a light curve-level injection/recovery test of artificial transit signals and found a maximum completeness of 61%, a consequence of the significant detrending required for K2 data analysis. Through this operation we attained measurements of the detection efficiency as a function of signal strength, enabling future population analysis using this sample. We assessed the reliability of our planet sample by testing our vetting software EDI-Vetter against inverted transit-free light curves. We estimate 91% of our planet candidates are real astrophysical signals, increasing up to 94% when limited to the FGKM dwarf stellar population. We also constrain the contamination rate from background eclipsing binaries to less than 5%. The presented catalog, along with the completeness and reliability measurements, enable robust exoplanet demographic studies to be carried out across the fields observed by the K2 mission for the first time., Comment: Accepted for Publication in AJ

Published
2021
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9. Juvenile idiopathische Arthritis (JIA) und Vitamin D – Assoziation zu Krankheitsaktivität oder Uveitisrisiko?

Author

Zink, J, Sengler, C, Klotsche, J, Kessel, C, Foell, D, Niewerth, M, Liedmann, I, Ganser, G, Thon, A, Haas, JP, Hospach, A, Weller-Heinemann, F, Horneff, G, and Minden, K

Subjects
ddc: 610, 610 Medical sciences, Medicine, skin and connective tissue diseases
Abstract

Einleitung: Vitamin D hat neben der Regulation des Calcium- und Phosphat-Stoffwechsels Bedeutung für das Immunsystem. Ein niedriger Vitamin-D-Spiegel ist sowohl mit der Inzidenz als auch mit der Ausprägung von Autoimmunerkrankungen, z.B. rheumatoide Arthritis, systemischer Lupus erythematodes,[zum vollständigen Text gelangen Sie über die oben angegebene URL], 46. Kongress der Deutschen Gesellschaft für Rheumatologie (DGRh), 32. Jahrestagung der Deutschen Gesellschaft für Orthopädische Rheumatologie (DGORh), Wissenschaftliche Herbsttagung der Gesellschaft für Kinder- und Jugendrheumatologie (GKJR)

Published
2019
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10. Direct-Sampling Coarse Bunch Arrival Time Monitor in the Free Electron Laser FLASH Based on the Fast Digitizer Implemented in the FMC VITA 57.1 Standard

Author

Zink, J., Czwalinna, M. K., Fenner, M., Jablonski, Szymon, Marjanovic, J., and Schlarb, H.

Abstract

At the free-electron lasers FLASH and European-XFEL bunch arrival times are monitored with a high-accuracy electro-optical based data acquisition system (BAM). Due to only a couple of picoseconds time measurement range of this system, large timing changes might cause the monitor to fail. To remove any ambiguity and for health status monitoring a high-speed direct-sampling FPGA mezzanine card (FMC) and an analogue RF front-end was added. The circuitry has lower precision than the electro-optical based BAM, but it can determine bunch arrival time with respect to a reference signal over a large time range, i.e. of the order of 1 ms. After restarts or larger energy changes during operation, the electron bunch arrival time may have been changed by tens or even hundreds of picoseconds, which causes that the BAM is out of its operation range and needs to be recalibrated. With the solution developed, the BAM gets the coarse bunch timing from the digitizer and adjusts its optical delay lines accordingly. This allows for finding the operation point fast and automatically. Performance data of the fast direct-sampling digitizer FMC and first measurement data from FLASH will be presented.

Published
2019

15. THU0584 Vitamin d status in patients with juvenile idiopathic arthritis and its association with disease activity and progression – results from the inception cohort icon

Author

Sengler, C., primary, Zink, J., additional, Klotsche, J., additional, Foell, D., additional, Niewerth, M., additional, Liedmann, I., additional, Horneff, G., additional, Haas, J.-P., additional, Moenkemoeller, K., additional, Thon, A., additional, and Minden, K., additional

Published
2018
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16. An analysis of the morality of intention in nuclear deterrence, with special reference to final retaliation

Author

Zink, J, Zink, Jeffrey A., and Glover, J

Subjects
Philosophy
Abstract

Quite apart from its apparent political obsolescence, the policy of nuclear deterrence is vulnerable to attack for its seemingly obvious immorality. Nuclear war is blatantly immoral, and nuclear deterrenec requires a genuine intention to resort to the nuclear retaliation which would precipitate such a war. Therefore, since it is wrong to intend that which is wrong to do, deterrence is immoral.This thesis seeks to examine the nature of the deterrent intention as a means of verifying the soundness of the above deontological argument. This examination is carried out by first suggesting an acceptable notion of intention in general and then, after analysing the views of deterrent intention by other writers, proceeding to demonstrate the uniqueness of that intention. Having done this, and having explored the possibility that deterrence need not contain a genuine intention to retaliate, the thesis moves on to suggest and defend a moral principle which states that endeavours requiring the formation of an immoral intention may nevertheless be moral. Called the Principle of Double Intention (and based on the Principle of Double Effect), it offers a method for the moral assessment of agents who form immoral intentions within larger contexts. By applying this principle to nuclear deterrence, it is demonstrated that agents who undertake such a policy may be morally justified in doing so, provided certain conditions are met.The thesis closes with a refutation of the objection that an agent cannot rationally form an intention (such as that required in deterrence) which he has no reason to carry out. By highlighting the objection's reliance on a claimed isomorphism between intention and belief, it is shown that the objection, while generally sound, does not apply to the special case of nuclear deterrence. The conclusion suggests a framework for disarmament which results in a deterrent force structure which is both strategically effective and morally acceptable.

Published
2016

17. Electron beams and loss cones in the auroral regions of Jupiter

Author

Allegrini, F., primary, Bagenal, F., additional, Bolton, S., additional, Connerney, J., additional, Clark, G., additional, Ebert, R. W., additional, Kim, T. K., additional, Kurth, W. S., additional, Levin, S., additional, Louarn, P., additional, Mauk, B., additional, McComas, D. J., additional, Pollock, C., additional, Ranquist, D., additional, Reno, M., additional, Szalay, J. R., additional, Thomsen, M. F., additional, Valek, P., additional, Weidner, S., additional, Wilson, R. J., additional, and Zink, J. L., additional

Published
2017
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18. Generation of the Jovian hectometric radiation: First lessons from Juno

Author

Louarn, P., primary, Allegrini, F., additional, McComas, D. J., additional, Valek, P. W., additional, Kurth, W. S., additional, André, N., additional, Bagenal, F., additional, Bolton, S., additional, Connerney, J., additional, Ebert, R. W., additional, Imai, M., additional, Levin, S., additional, Szalay, J. R., additional, Weidner, S., additional, Wilson, R. J., additional, and Zink, J. L., additional

Published
2017
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19. Clustered water adsorption on the NaCl(100) surface.

Author

Wassermann, B., Mirbt, S., Reif, J., Zink, J. C., and Matthias, E.

Subjects
WATER, ADSORPTION (Chemistry), MOLECULAR dynamics
Abstract

The adsorption dynamics of water on NaCl(100) is studied by molecular dynamics calculations as a function of coverage. We find that, starting from a critical coverage of about 1/2 monolayer, a coupling of the water dipoles sets in and the interaction between the water molecules wins over the interaction between adsorbate and substrate leading via percolation to formation of infinite cluster networks. This effect is confirmed qualitatively by surface sensitive optical second harmonic measurements with well-controlled water exposure. At a coverage of one bilayer, a two-dimensional ‘‘ice’’ structure is found to be stable. Simulated low-energy electron diffraction (LEED) patterns for this configuration are in excellent agreement with recent observation of a c(4×2) overstructure. [ABSTRACT FROM AUTHOR]

Published
1993
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27. Poster contributions

Author

Houlton, A., Silver, J., Guillin, J., Desbois, M. H., Lacoste, M., Astruc, D., Varret, F., Goodwin, H. A., Onggo, D., Maeda, Y., Takashima, Y., Ohshio, H., Toriumi, K., Sorai, M., Poganiuch, P., Gütlich, P., Wiehl, L., Krafczyk, U., Hauser, A., Spiering, H., Bardhan, M., Birchall, T., Frampton, C. S., Kapoor, P., Tiedtke, Marion, Wortmann, Gerhard, Petridis, D., Gangas, N., Simopoulos, A., Kostikas, A., Gangas, N. H. J., Simgpoulos, A., Meagher, A., Billenstein, M., Doerfler, R., Leupold, O., Nagy, D. L., Ritter, G., Long, Gary J., Gleitzer, Charles, Fiddy, J. M., Hall, I., Grandjean, F., Long, G. J., Russo, U., Kucharski, Z., Suwalski, J., Budrowski, Cz., Vetrone, J., Calage, Y., Tortevois, R., Fourari, H., Berry, F. J., Sarson, M. I., Meyer, C., Nagorny, K., Łukasiak, M., Panfil, J., Bermudez, A., Wordel, R., Wagner, F. E., Tyrer, A. A., Yoshida, Y., Fratzl, P., Miekeley, W., Vogl, G., Dubiel, S. M., Homonnay, Z., Süvegh, K., Szeles, Cs., Vertes, A., Saleh, A. S., Mahmood, S. H., Frackowiak, J. E., Kmieć, R., Hrynkiewicz, A. Z., Krolas, K., Tomala, K., Adlassnig, W., Potzel, W., Moser, J., Schiessl, W., Potzel, U., Schäfer, C., Steiner, M., Kalvius, G. M., Allen, David W., Brooks, John S., Williams, Gavin L., Nishida, T., Saruwatari, S., Hans, M., Wolf, G. K., Ghafari, M., Keune, W., Limbach, C. T., Gonser, U., Pösinger, A., Reissner, M., Steiner, W., Kopcewicz, M., Fries, S. M., Zych, W., Gryffroy, D., Vandenberghe, R. E., De Grave, E., Huck, B., Landes, J., Hesse, J., Labarta, A., Obradors, X., Tejada, J., Pebler, J., Pszczola, J., Krop, K., Zink, J., Grandjean, Fernande, Tharp, Dwayne E., Pringle, O. Alan, James, William J., Lottermoser, W., Baum, Elke, Treutmann, W., Amthauer, G., Abd-Elmeguid, M. M., Gaebler, K., Ludorf, W., Micklitz, H., Taylor, R. D., Manns, V., Scholz, B., Schletz, K. P., Braun, M., Wassermann, E. F., Madsen, M. B., Linderoth, S., Mørup, S., Bentzon, M. D., Knudsen, J. M., Murad, E., Schwertmann, U., Choleva, N., Lundgreen, B., Jacobsen, C. T., Jensen, H. G., Olsen, M., Kruse, O., Ericsson, T., Wagner, U., Brandis, S. v., Müller-Karpe, H., Riederer, J., Tellenbach, M., Ulbert, C., Hanzel, D., Hanzel, Darko, Bilinski, H., Nöthig, V., Wiesinger, G., Ismail, S. S., Bottig, P., Smit, H. H. A., Thiel, R. C., De Jongh, L. J., Wells, S., Charles, S. W., Alhasan, A. D., Williams, J. M., Krämer, A., Jing, J., Van Wonterghem, J., Hayashi, M., Van Der Kraan, A. M., Gerkema, E., Van Loef, J. J., Tamura, I., Oogai, M., Goto, T., Klimkeit, A., Mohr, C., Crajé, M. W. J., Ramselaar, W. L. T. M., De Beer, V. H. J., Niemantsverdriet, J. W., Louwers, S. P. A., Van Gruijthuijsen, L. M. P., Koningsberger, D. C., Klissurski, D., Makedonski, L., Bluskov, V., Jobson, S., Ojo, A., Dwyer, J., Parish, R. V., Schubert, S., Ziethen, H. M., Schmidt, F., Trautwein, A. X., Li, Hong -Xiu, Martens, J. A., Jacobs, P. A., Kiauka, W., Vantomme, A., Dézsi, I., Langouche, G., Sauer, Ch., Holzwarth, A., Kajcsos, Zs., Brand, R. A., Mantl, S., Zinn, W., Marco, J. F., Gracia, M., Gancedo, J. R., Stumm, U., Meisel, W., Roy, S. K., Mondal, A. K., Dormann, J. L., Bhargava, S. C., Djega, C., Jové, J., Renaudin, P., Gorochov, O., Bhandage, G. T., Rateau, M., Pankowska, H., Suryanarayanan, R., Bottyán, L., Hutiray, Gy., Mihály, L., Molnár, B., Dengler, J., Schober, J., Berke, J., Imbert, P., Jéhanno, G., Hietaniem, J., Härkönen, K., Ikonen, E., Karppinen, M., Katila, T., Lindén, J., Niinistö, L., Tittonen, I., Ullakko, K., Bieg, J., Bauminger, E. R., Edery, D., Felner, I., Kowitt, M., Lehavi, Y., Nowik, I., Niarchos, D., Bornemann, H. -J., Czjzek, G., Ewert, D., Renker, B., Schmidt, H., Ahrens, R., Zhang, G. L., Niesen, L., Mo, D., Boerma, D. O., Laubach, S., Schwalbach, P., Hartick, M., Kankeleit, E., Klingelhöfer, G., Keck, B., Imkeller, U., Menningen, M., Sielemann, R., Bemelmans, H., Schroyen, D., Hendrickx, P., Toriyama, T., Moser, N., Macedo, W. A. A., Rimbert, J. N., Dumas, F., Richardot, G., Adnet, F., Racour, T., Barbieri, R., Musmeci, M. T., Laroque, D., Bill, E., Winkler, H., Morgenstern-Badarau, I., Gruber, W., Horváth, D., Szücs, I. S., Zeman, N., Tuczek, F., Giesse, E., Manthe, U., Hennen, C., Alflen, M., Parak, F., Nienhaus, G. U., Hartmann, H., Stahl, B., Von Eynatten, G., Ritter, T., Dransfeld, K., Buheitel, F., Aumann, D. C., Le Caër, G., Jiangshun, Huang, Junming, Chen, Ge, Wang, Nair, N. V., Nair, K. V. K., Srivastava, K. K. P., Sinha, T. P., Nagel, S., Hafner, S. S., Stanek, J., Schupp, G., Hammouda, B., Yelon, W. B., Hsueh, C. M., and Meyer, M. R.

Published
1989
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32. Bestimmung der Härte im Wasser

Author

Berczeller, L., Masters, H., Smith, H. L., Ruys, J. D., Pina de Rubies, S., Nothnagel, G., Winkler, L. W., Gottschalk, V. H., Roesler, H. A., Mayer, M., Kleiner, E. G., Klut, H., von Cochenhausen, E., Nawiasky, P. W., Korschun, S. W., Beckurts, H., Silber, J. M., Zink, J., Hollandt, Fr., Wagner, B., Singer, H., Blacher, C., Koerber, U., Jacoby, J., Bahlmann, Cl., Grünhut, L., Grittner, A., Pfeifer, J., Herbig, W., Grünberg, P., Kissa, M., Froboese, V., Pflanz, W., Nockmann, E., Fischer, H., Tilgner, M., Soltsien, P., Hundeshagen, F., Drawe, P., Grossfeld, J., Precht, H., Pfeiffer, O., Bosshard, E., Burawzow, W., Noll, H., Schenk, R., Reimer, C. L., Lüning, O., Abel, R., and Kerp, W.

Published
1919
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33. Wasser

Author

Winkler, L. W., Friend, J. N., Noll, H., Hatfield, W. D., Wandenbulcke, F., Zink, J., Hollandt, F., Lührig, H., Bang, I., Mayrhofer, J., Haber, F., and Jaenicke, J.

Published
1927
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34. Wasser

Author

Krieger, A., Pavelka, F., Bruhns, G., Zink, J., and Hollandt, F.

Published
1925
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35. Untersuchung von Tee

Author

Beythien, A., Bohrisch, P., Deiter, J., Röhrig, A., Nestler, A., Behrens, H., Kley, P., Kreis, H., Farnsteiner, K., Lendrich, K., Zink, J., and Buttenberg, P.

Published
1908
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38. pH-operated hybrid silica nanoparticles with multiple H-bond stoppers for colon cancer therapy

Author

Théron, C., primary, Gallud, A., additional, Giret, S., additional, Maynadier, M., additional, Grégoire, D., additional, Puche, P., additional, Jacquet, E., additional, Pop, G., additional, Sgarbura, O., additional, Bellet, V., additional, Hibner, U., additional, Zink, J. I., additional, Garcia, M., additional, Wong Chi Man, M., additional, Carcel, C., additional, and Gary-Bobo, M., additional

Published
2015
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