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1. Indications of an unexpected signal associated with the GW170817 binary neutron star inspiral

Author

Fischbach, E., Barnes, V. E., Cinko, N., Heim, J., Kaplan, H. B., Krause, D. E., Leeman, J. R., Mathews, S. A., Mueterthies, M. J., Neff, D., and Pattermann, M.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Phenomenology
Abstract

We report experimental evidence at the 2.5$\sigma$ level for an unexpected signal associated with the GW170817 binary neutron star inspiral. This evidence derives from a laboratory experiment simultaneously measuring the $\beta$-decay rates of Si-32 and Cl-36 in a common detector. Whereas the Si-32 and Cl-36 decay rates show no statistical correlation before or after the inspiral, they are highly correlated ($\sim 95\%$) in the 5 hour time interval immediately following the inspiral. If we interpret this correlation as arising from the influence of particles emitted during the inspiral, then we can estimate the mass $m_{x}$ of these particles from the time delay between the gravity-wave signal and a peak in the $\beta$-decay data. We find for particles of energy 10 MeV, $m_{x}$ $\lesssim$ 16 eV which includes the neutrino mass region $m_{\nu}$ $\lesssim$ 2 eV. The latter is based on existing limits for the masses $m_{i}$ of the three known neutrino flavors. Additionally, we find that the correlation is even stronger if we include data in the 80 minute period before the arrival of the gravity wave signal. Given the large number of radionuclides whose decays are being monitored at any given time, we conjecture that other groups may also be in a position to search for statistically suggestive fluctuations of radionuclide decay rates associated with the GW170817 inspiral, and possibly with other future inspirals., Comment: 11 pages, 3 figures (minor edits and reformatting to bring it closer to the published version)

Published
2018
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3. Search for Perturbations of Nuclear Decay Rates Induced by Reactor Electron Antineutrinos

Author

Barnes, V. E., Bernstein, D. J., Bryan, C. D., Cinko, N., Deichert, G. G., Gruenwald, J. T., Heim, J. M., Kaplan, H. B., LaZur, R., Neff, D., Nistor, J. M., Sahelijo, N., and Fischbach, E.

Subjects
Nuclear Experiment, Physics - Instrumentation and Detectors
Abstract

We report the results of an experiment conducted near the High Flux Isotope Reactor of Oak Ridge National Laboratory, designed to address the question of whether a flux of reactor-generated electron antineutrinos can alter the rates of weak nuclear interaction-induced decays for Mn-54, Na-22, and Co-60. This experiment, while quite sensitive, cannot exclude perturbations less than one or two parts in $10^4$ in $\beta$ decay (or electron capture) processes, in the presence of an antineutrino flux of $3\times 10^{12}$ cm$^{-2}$ s$^{-1}$. The present experimental methods are applicable to a wide range of isotopes. Improved sensitivity in future experiments may be possible if we can understand and reduce the dominant systematic uncertainties.

Published
2016

4. Weak Equivalence Principle, Lorentz Non-invariance, and Nuclear Decays

Author

Fischbach, E., Barnes, V. E., Heim, J. M., Krause, D. E., and Nistor, J. M.

Subjects
General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology, Nuclear Experiment
Abstract

We consider three possible manifestations of physics beyond the Standard Model, and the relations among them. These are Lorentz non-invariance (LNI), violations of the Weak Equivalence Principle (WEP), and indications of time-varying nuclear decay constants. We present preliminary results from a new experiment indicating the presence of annual and subannual periodicities in decay data, and discuss their implications for physics beyond the Standard Model., Comment: 4 pages, 3 figures, Proceedings of the 50th Rencontres de Moriond, Gravitation Session: "100 Years After GR", 21-28 March 2015

Published
2015

5. Phenomenology of Rate-Related Nonlinear Effects in Nuclear Spectroscopy

Author

Nistor, J. M., Heim, J. M., Fischbach, E., Jenkins, J. H., and Sturrock, P. A.

Subjects
Nuclear Experiment, High Energy Physics - Phenomenology, Physics - Instrumentation and Detectors
Abstract

A series of recent reports suggest that the decay rates of several isotopes may have been influenced by solar activity (perhaps by solar neutrinos). A mechanism in which neutrinos or antineutrinos can influence the decay process suggests that a sample of decaying nuclei emitting neutrinos could affect its own rate of decay. Past experiments have searched for this 'self-induced decay' (SID) effect by measuring deviations from the expected decay rate for highly active samples of varying geometries. Here, we show that the SID effect closely resembles the behavior of rate-related losses due to dead-time, and hence that standard dead-time corrections can result in the removal of any SID-related behavior. We conclude by describing experiments which could disentangle SID effects from those arising from dead-time., Comment: 10 pages, 4 figures, 3 tables. Submitted to Nucl. Instrum. Methods A

Published
2014

6. Investigation of the Exclusive ^{3}He(e,e'pn)p Reaction

Author

Middleton, D. G., Annand, J. R. M., Antelo, M. Ases, Ayerbe, C., Barneo, P., Baumann, D., Bermuth, J., Bernauer, J., Blok, H. P., Bosnar, D., Böhm, R., Ding, M., Distler, M. O., Friedrich, J., Llongo, J. García, Glazier, D. I., Golak, J., Glöckle, W., Grabmayr, P., Hehl, T., Heim, J., Hesselink, W. H. A., Jans, E., Kamada, H., Mañas, G. Jover, Kohl, M., Lapikás, L., MacGregor, I. J. D., Martin, I., McGeorge, J. C., Merkel, H., Merle, P., Monstad, K., Moschini, F., Müller, U., Nogga, A., Benito, R. Pérez, Pospischil, Th., Potokar, M., Rosner, G., Seimetz, M., Skibiński, R., de Vries, H., Walcher, Th., Watts, D. P., Weinriefer, M., Weiss, M., Witała, H., and Zihlmann, B.

Subjects
Nuclear Experiment
Abstract

Cross sections for the ^{3}He(e,e'pn)p reaction were measured for the first time at energy transfers of 220 and 270 MeV for several momentum transfers ranging from 300 to 450 MeV/c. Cross sections are presented as a function of the momentum of the recoil proton and the momentum transfer. Continuum Faddeev calculations using the Argonne V18 and Bonn-B nucleon-nucleon potentials overestimate the measured cross sections by a factor 5 at low recoil proton momentum with the discrepancy becoming much smaller at higher recoil momentum., Comment: 5, pages, 3 figures

Published
2009
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7. Report of the US long baseline neutrino experiment study

Author

Barger, V., Bishai, M., Bogert, D., Bromberg, C., Curioni, A., Dierckxsens, M., Diwan, M., Dufour, F., Finley, D., Fleming, B. T., Gallardo, J., Heim, J., Huber, P., Jung, C. K., Kahn, S., Kearns, E., Kirk, H., Kirk, T., Lande, K., Laughton, C., Lee, W. Y., Lesko, K., Lewis, C., Litchfield, P., Mann, A. K., Marchionni, A., Marciano, W., Marfatia, D., Marino, A. D., Marshak, M., Menary, S., McDonald, K., Messier, M., Pariseau, W., Parsa, Z., Pordes, S., Potenza, R., Rameika, R., Saoulidou, N., Simos, N., Van Berg, R., Viren, B., Whisnant, K., Wilson, R., Winter, W., Yanagisawa, C., Yumiceva, F., Zimmerman, E. D., and Zwaska, R.

Subjects
High Energy Physics - Phenomenology
Abstract

This report provides the results of an extensive and important study of the potential for a U.S. scientific program that will extend our knowledge of neutrino oscillations well beyond what can be anticipated from ongoing and planned experiments worldwide. The program examined here has the potential to provide the U.S. particle physics community with world leading experimental capability in this intensely interesting and active field of fundamental research. Furthermore, this capability could be unique compared to anywhere else in the world because of the available beam intensity and baseline distances. The present study was initially commissioned in April 2006 by top research officers of Brookhaven National Laboratory and Fermi National Accelerator Laboratory and, as the study evolved, it also provided responses to questions formulated and addressed to the study group by the Neutrino Scientific Advisory Committee (NuSAG) of the U.S. DOE and NSF. The participants in the study, its Charge and history, plus the study results and conclusions are provided in this report and its appendices. A summary of the conclusions is provided in the Executive Summary., Comment: 109 pages, 56 figures, The report, all associated presentations, and documents produced during this study can be obtained at http://nwg.phy.bnl.gov/fnal-bnl

Published
2007

8. First measurements of the ^16O(e,e'pn)^14N reaction

Author

Middleton, D. G., Annand, J. R. M., Barbieri, C., Barneo, P., Bartsch, P., Bauman, D., Bermuth, J., Bosnar, D., Blok, H. P., Bohm, R., Ding, M., Distler, M. O., Elsner, D., Friedrich, J., Giusti, C., Glazier, D. I., Grabmayr, P., Grozinger, S., Hehl, T., Heim, J., Hesselink, W. H. A, Jans, E., Klein, F., Kohl, M., Lapikas, L., MacGregor, I. J. D., Martin, I., McGeorge, J. C., Merkel, H., Merle, P., Moschini, F., Muller, U., Pospischil, Th., Rosner, G., Schmieden, H., Seimetz, M., Sule, A., de Vries, H., Walcher, Th., Watts, D. P., Weis, M., and Zihlmann, B.

Subjects
Nuclear Experiment
Abstract

This paper reports on the first measurement of the ^16O(e,e'pn)^14N reaction. Data were measured in kinematics centred on a super-parallel geometry at energy and momentum transfers of 215 MeV and 316 MeV/c. The experimental resolution was sufficient to distinguish groups of states in the residual nucleus but not good enough to separate individual states. The data show a strong dependence on missing momentum and this dependence appears to be different for two groups of states in the residual nucleus. Theoretical calculations of the reaction using the Pavia code do not reproduce the shape or the magnitude of the data., Comment: 10 pages, 11 figures, 2 tables, Accepted for publication in EPJA

Published
2007
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12. Overview of the Superconducting Magnet Subsystem for the GEM Detector at the SSC

Author

Deis, G., Bowers, J., Chargin, A., Heim, J., House, A., Johnson, C., Oberst, G., Pedrotti, L., Swan, J., Warren, R., Wineman, S., Yamamoto, R., Camille, R., East, G., Marston, P., Minervini, J., Myatt, R., Myatt, S., Pillsbury, R., Piek, Z., Smith, B., Sullivan, J., Titus, P., Vieira, R., Krupczak, J., Martovetsky, N., Reardon, P., Richardson, R., Richied, D., Stroynowski, R., and Hale, Phyllis, editor

Published
1994
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15. Study of nuclear decays during a solar eclipse: Thule Greenland 2008

Author

Javorsek, II, D., Brewer, M. C., Buncher, J. B., Fischbach, E., Gruenwald, J. T., Heim, J., Hoft, A. W., Horan, T. J., Kerford, J. L., Kohler, M., Lau, J. J., Longman, A., Mattes, J. J., Mohsinally, T., Newport, J. R., Petrelli, M. A., Stewart, C. A., Jenkins, J. H., Lee, R. H., Morreale, B., Morris, D. B., Mudry, R., O’Keefe, D., Terry, B., Silver, M. A., and Sturrock, P. A.

Published
2012
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16. 3He(e,e′pp) and 3He(e,e′pn) reactions at AmPS and MAMI

Author

Middleton, D. G., Annand, J. R. M., Ases Antelo, M., Ayerbe, C., Barneo, P., Baumann, D., Bermuth, J., Bernauer, J., Blok, H. P., Böhm, R., Bosnar, D., Ding, M., Distler, M. O., Friedrich, J., García Llongo, J., Glazier, D. I., Grabmayr, P., Hehl, T., Heim, J., Hesselink, W. H. A., Jans, E., Jover Mañas, G., Kohl, M., Lapikás, L., MacGregor, I. J. D., Martin, I., McGeorge, J. C., Merkel, H., Merle, P., Monstad, K., Moschini, F., Müller, U., Pérez Benito, R., Pospischil, Th., Potokar, M., Rosner, G., Seimitz, M., de Vries, H., Walcher, Th., Watts, D. P., Weinriefer, M., Weiss, M., and Zihlmann, B.

Published
2008
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19. First measurements of the 16O(e, e'pn)14N reaction

Author

Middleton, D. G., Annand, J. R. M., Barbieri, C., Barneo, P., Blok, H. P., Böhm, R., Distler, M. O., Friedrich, J., Giusti, C., Glazier, D. I., Grabmayr, P., Hehl, T., Heim, J., Hesselink, W. H. A., Jans, E., Kohl, M., Lapikás, L., MacGregor, I. J. D., Martin, I., McGeorge, J. C., Merkel, H., Moschini, F., Rosner, G., Seimetz, M., de Vries, H., Walcher, Th., Watts, D. P., and Zihlmann, B.

Published
2006
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20. Electrolyte disorders after traumatic brain injury

Author

Wagner, A, Heim, J, Mikhina, L, Simonstadt, MC, Lange, N, Wostrack, M, Meyer, B, Gempt, J, Wagner, A, Heim, J, Mikhina, L, Simonstadt, MC, Lange, N, Wostrack, M, Meyer, B, and Gempt, J

Published
2020

28. The design of the Tokamak Physics Experiment (TPX)

Author

Schmidt, J. A., Thomassen, K. I., Goldston, R. J., Neilson, G. H., Nevins, W. M., Sinnis, J. C., Andersen, P., Bair, W., Barr, W. L., Batchelor, D. B., Baxi, C., Berg, G., Bernabei, S., Bialek, J. M., Bonoli, P. T., Boozer, A., Bowers, D., Bronner, G., Brooks, J. N., Brown, T. G., Bulmer, R., Butner, D., Campbell, R., Casper, T., Chaniotakis, E., Chaplin, M., Chen, S. J., Chin, E., Chrzanowski, J., Citrolo, J., Cole, M. J., Dahlgren, F., Davis, F. C., Davis, J., Davis, S., Diatchenko, N., Dinkevich, S., Feldshteyn, Y., Felker, B., Feng, T., Fenstermacher, M. E., Fleming, R., Fogarty, P. J., Fragetta, W., Fredd, E., Gabler, M., Galambos, J., Gohar, Y., Goranson, P. L., Greenough, N., Grisham, L. R., Haines, J., Haney, S., Hassenzahl, W., Heim, J., Heitzenroeder, P. J., Hill, D. N., Hodapp, T., Houlberg, W. A., Hubbard, A., Hyatt, A., Jackson, M., Jaeger, E. F., Jardin, S. C., Johnson, J., Jones, G. H., Juliano, D. R., Junge, R., Kalish, M., Kessel, C. E., Knutson, D., LaHaye, R. J., Lang, D. D., Langley, R. A., Liew, S. -L., Lu, E., Mantz, H., Manickam, J., Mau, T. K., Medley, S., Mikkelsen, D. R., Miller, R., Monticello, D., Morgan, D., Moroz, P., Motloch, C., Mueller, J., Myatt, L., Nelson, B. E., Neumeyer, C. L., Nilson, D., O'Conner, T., Pearlstein, L. D., Peebles, W. A., Pelovitz, M., Perkins, F. W., Perkins, L. J., Petersen, D., Pillsbury, R., Politzer, P. A., Pomphrey, N., Porkolab, M., Posey, A., Radovinsky, A., Raftopoulis, S., Ramakrishnan, S., Ramos, J., Rauch, W., Ravenscroft, D., Redler, K., Reiersen, W. T., Reiman, A., Reis, E., Rewoldt, G., Richards, D. J., Rocco, R., Rognlien, T. D., Ruzic, D., Sabbagh, S., Sapp, J., Sayer, R. O., Scharer, J. E., Schmitz, L., Schnitz, J., Sevier, L., Shipley, S. E., Simmons, R. T., Slack, D., Smith, G. R., Stambaugh, R., Steill, G., Stevenson, T., Stoenescu, S., Onge, K. T. St., Stotler, D. P., Strait, T., Strickler, D. J., Swain, D. W., Tang, W., Tuszewski, M., Ulrickson, M. A., VonHalle, A., Walker, M. S., Wang, C., Wang, P., Warren, J., Werley, K. A., West, W. P., Williams, F., Wong, R., Wright, K., Wurden, G. A., Yugo, J. J., Zakharov, L., and Zbasnik, J.

Published
1993
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29. Design and analysis of a wiggler magnet system for the PEP-II B-Factory LER

Author

Heim, J., Kendall, M., Bertolini, L., Fackler, O., O'Connor, T., Swan, T., and Zholents, A.

Subjects
Superconducting magnets -- Design and construction, Synchrotron radiation sources -- Design and construction, Storage rings -- Equipment and supplies, Business, Electronics, Electronics and electrical industries
Abstract

The Low Energy Ring (LER) of the PEP-II B-Factory will use a wiggler magnet system for emittance control and additional damping. The wiggler magnet system is a set of 11 individual iron core, water cooled, dipole magnets designed to operate at 1.6 T and generate 400 kW of synchrotron radiation. Space has been provided to add a second wiggler with an additional 400 kW of synchrotron radiation if more damping is needed in the future. A copper vacuum chamber is used with continuous antechambers connected to both sides of the beam chamber via slots. Synchrotron radiation dump surfaces and distributed vacuum pumping are located in both antechambers. We describe the design and analysis of the wiggler magnets and the salient features of the vacuum chamber and dumps.

Published
1996

31. Plans for building the largest thin solenoid ever

Author

Heim, J., Bowers, J., Deis, G., Johnson, C., Oberst, G., Pedrotti, L., Swan, J., Warren, R., Wineman, S., Yamamoto, R., Camille, R., Marston, P., Minervini, J., Pillsbury, R., Piek, Z., Smith, B., Sullivan J., Vieira, R., East, G., Myatt, R., Myatt, S., Titus, P., Krupczak, J., Martovetsky, N., and Reardon, P.

Subjects
Solenoids -- Research, Superconducting magnets -- Research, Business, Electronics, Electronics and electrical industries
Abstract

The superconducting solenoid magnet for the GEM detector poses unusual fabrication and handling challenges because of its extraordinary size. It will be more than 30% larger in diameter than the largest existing particle detector coils. Each of the two coil elements that compose the air-core solenoid, will be about 19 meters in diameter and 15 meters long. Major components weighing as much as 1500 Mg must be transported and manipulated at the Interaction Region 5 (IR5) fabrication site of the SSC Laboratory as the magnets are fabricated. Because of their large size, the magnets will be fabricated, assembled and tested at special purpose facilities at the IR5 site. The site-use plan must accommodate the fabrication of other detector components and the assembly of large flux shaping iron structures in a timely manner to allow subsequent testing and detector assembly. Each cold mass will be composed of twelve 45-Mg coil windings that are joined prior to assembly into the 19-m diam annular cryostat.

Published
1994

32. The superconducting solenoid magnet system for the GEM detector at the SSC

Author

Deis, G., Bowers, J., Chargin, A., Heim, J., House, A., Johnson, C., Oberst, G., Pedrotti, L., Swan, J., Warren, R., Wineman, S., Yamamoto, R., Camille, R., East, G., Marston, P., Minervini, J., Myatt, R., Myatt, S., Pillsbury, R., Piek, Z., Smith, B., Sullivan, P., Titus, P., Vieira, R., and Krupczak, J.

Subjects
Superconducting magnets -- Research, Solenoids -- Research, Business, Electronics, Electronics and electrical industries, Superconducting Super Collider -- Research
Abstract

The design of the magnet for the GEM detector at the SSC is described. It is an 18m inner diameter, 30m long superconducting solenoid, with a magnetic field of 0.8T. The basic solenoidal field is shaped by large ferromagnetic cones, to improve detector performance in the ends of the solenoid. Because of the system's large size and mass, field-fabrication on-site at the SSC is required. The challenges in this process, together with the large stored energy of the system, 2.5 GJ, have lead to novel design choices in several areas, including the conductor. The design of the conductor, cold mass, vacuum vessel, cold mass supports, thermal shields, forward field shapers, and auxiliary systems are described.

Published
1994

35. Abstract OT3-02-01: RIBANNA — Real-world evidence of ribociclib plus aromatase inhibitor, or endocrine monotherapy, or chemotherapy as first-line therapy for postmenopausal women with HR+, HER2– advanced breast cancer (aBC)

Author

Wöckel, A, primary, Fasching, PA, additional, Guderian, G, additional, Heim, J, additional, Jackisch, C, additional, Lück, H-J, additional, Lüftner, D, additional, Marmé, F, additional, Reimer, T, additional, and Decker, T, additional

Published
2019
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36. SUPERCONDUCTING MAGNET SYSTEM FOR THE SSAT-S TOKAMAK

Author

Schultz, J.H., primary, Brown, T.G., additional, Citrolo, J.C., additional, Hassenzahl, W.V., additional, Heim, J., additional, Lang, D., additional, Montgomery, D.B., additional, Myatt, L., additional, Pillsbury, R.D., additional, Slack, D., additional, Wang, P.-W., additional, and Wong, R., additional

Published
1993
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39. Real-world effectiveness of ribociclib + aromatase inhibitor, or endocrine monotherapy, or chemotherapy as first-line treatment in postmenopausal women with HR-positive, HER2-negative locally advanced or metastatic breast cancer: The RIBANNA study

Author

Fasching, P.A., primary, Decker, T., additional, Guderian, G., additional, Heim, J., additional, Jackisch, C., additional, Lueck, H.-J., additional, Lüftner, D., additional, Marmé, F., additional, Reimer, T., additional, and Woeckel, A., additional

Published
2018
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40. Investigation of the Exclusive 3He(e, e’pn) 1H Reaction

Author

Kepler Centre for Astro and Particle Physics, Physikalisches Institut, Universität Tübingen, D-72076 Tübingen, Germany, Department of Physics and Astronomy, University of Glasgow, Glasgow G12 8QQ, Scotland, Institut für Kernphysik, Johannes Gutenberg-Universität Mainz, D-55099 Mainz, Germany, Nikhef, P.O. Box 41882, 1009 DB Amsterdam, The Netherlands, Nikhef, P.O. Box 41882, 1009 DB Amsterdam, The Netherlands, Department of Physics, VU-university, Amsterdam, The Netherlands, Department of Physics, University of Zagreb, Zagreb, Croatia, M. Smoluchowski Institute of Physics, Jagiellonian University, PL-30059 Kraków, Poland, Institut für Theoretische Physik II, Ruhr-Universität Bochum, D-44780 Bochum, Germany, Department of Physics, Faculty of Engineering, Kyushu Institute of Technology, Kitakyushu 804-8550, Japan, Institute for Advanced Simulation, Institut für Kernphysik, and Jülich Center for Hadron Physics, Forschungszentrum Jülich, D-52425 Jülich, Germany, Institute Jožef Stefan, University of Ljubljana, Ljubljana, Slovenia, Middleton, D. G., Annand, J. R. M., Antelo, M. Ases, Ayerbe, C., Barneo, P., Baumann, D., Bermuth, J., Bernauer, J., Blok, H. P., Böhm, R., Bosnar, D., Ding, M., Distler, M. O., Friedrich, J., García, Llongo J., Glazier, D. I., Golak, J., Glöckle, W., Grabmayr, P., Hehl, T., Heim, J., Hesselink, W. H. A., Jans, E., Kamada, H., Jover, Mañas G., Kohl, M., Lapikás, L., MacGregor, I. J. D., Martin, I., McGeorge, J. C., Merkel, H., Merle, P., Monstad, K., Moschini, F., Müller, U., Nogga, A., Pérez-Benito, R., Pospischil, Th., Potokar, M., Rosner, G., Seimetz, M., Skibiński, R., de, Vries H., Walcher, Th., Watts, D. P., Weinriefer, M., Weiss, M., Witała, H., Zihlmann, B., Kepler Centre for Astro and Particle Physics, Physikalisches Institut, Universität Tübingen, D-72076 Tübingen, Germany, Department of Physics and Astronomy, University of Glasgow, Glasgow G12 8QQ, Scotland, Institut für Kernphysik, Johannes Gutenberg-Universität Mainz, D-55099 Mainz, Germany, Nikhef, P.O. Box 41882, 1009 DB Amsterdam, The Netherlands, Nikhef, P.O. Box 41882, 1009 DB Amsterdam, The Netherlands, Department of Physics, VU-university, Amsterdam, The Netherlands, Department of Physics, University of Zagreb, Zagreb, Croatia, M. Smoluchowski Institute of Physics, Jagiellonian University, PL-30059 Kraków, Poland, Institut für Theoretische Physik II, Ruhr-Universität Bochum, D-44780 Bochum, Germany, Department of Physics, Faculty of Engineering, Kyushu Institute of Technology, Kitakyushu 804-8550, Japan, Institute for Advanced Simulation, Institut für Kernphysik, and Jülich Center for Hadron Physics, Forschungszentrum Jülich, D-52425 Jülich, Germany, Institute Jožef Stefan, University of Ljubljana, Ljubljana, Slovenia, Middleton, D. G., Annand, J. R. M., Antelo, M. Ases, Ayerbe, C., Barneo, P., Baumann, D., Bermuth, J., Bernauer, J., Blok, H. P., Böhm, R., Bosnar, D., Ding, M., Distler, M. O., Friedrich, J., García, Llongo J., Glazier, D. I., Golak, J., Glöckle, W., Grabmayr, P., Hehl, T., Heim, J., Hesselink, W. H. A., Jans, E., Kamada, H., Jover, Mañas G., Kohl, M., Lapikás, L., MacGregor, I. J. D., Martin, I., McGeorge, J. C., Merkel, H., Merle, P., Monstad, K., Moschini, F., Müller, U., Nogga, A., Pérez-Benito, R., Pospischil, Th., Potokar, M., Rosner, G., Seimetz, M., Skibiński, R., de, Vries H., Walcher, Th., Watts, D. P., Weinriefer, M., Weiss, M., Witała, H., and Zihlmann, B.

Abstract

type:Journal Article, Cross sections for the 3He(e,e' pn)1H reaction were measured for the first time at energy transfers of 220 and 270 MeV for several momentum transfers ranging from 300 to 450 MeV/c. Cross sections are presented as a function of the momentum of the recoil proton and the momentum transfer. Continuum Faddeev calculations using the Argonne V18 and Bonn-B nucleon-nucleon potentials overestimate the measured cross sections by a factor 5 at low recoil proton momentum with the discrepancy becoming smaller at higher recoil proton momentum.

Published
2017

44. Are mesenchymal stem cells (MSCs) able to control pro-inflammatory T cells?

Author

Almanzar, G, Riekert, M, Heim, J, Höfner, K, Schmalzing, M, Tony, HP, Schütze, N, and Prelog, M

Subjects
mesenchymal stem cells, ddc: 610, Interleukin-17, T cells, 610 Medical sciences, Medicine
Abstract

Background: Pro-inflammatory T-cells and their cytokines play an important role in chronic inflammatory autoimmune diseases, such as rheumatoid arthritis (RA). Some studies have shown immune regulation by MSCs. MSCs are multipotent cells able to differentiate into cells of the mesenchymal linage. To[for full text, please go to the a.m. URL], 44. Kongress der Deutschen Gesellschaft für Rheumatologie (DGRh); 30. Jahrestagung der Deutschen Gesellschaft für Orthopädische Rheumatologie (DGORh); 26. Jahrestagung der Gesellschaft für Kinder- und Jugendrheumatologie (GKJR)

Published
2016
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45. NOTES BRÈVES

Author

Lambinon, J., Léonard, J., Heim, J., Duvigneaud, J., Tournay, R., Van der Veken, P., Piérart, Pierre, Lawalrée, André, Bamps, Paul, Lebrun, J., and Stockmans, F.

Published
1966

46. Mineralogical Changes within Polish Weissliegend Sandstones During Bioleaching

Author

Heim, J., Bachmann, K., Rahfeld, A., Möckel, R., Schopf, S., Gutzmer, J., and Schlömann, M.

Subjects
automated mineral liberation analysis, Bioleaching, XRD, Acidithiobacillus ferrooxidans, Weissliegend sandstone
Abstract

The Kupferschiefer is one of the most important sources of copper and silver in Europe, with resources located mainly in Poland and Germany. Mineralization is stratabound and hosted by sedimentary rocks comprising of sandstone, black shale, and carbonate rocks. Because Kupferschiefer-type ores are typically complex and very fine-grained, alternative approaches for metal recovery, such as bioleaching, are becoming an attractive alternative to flotation. The focus of this study was a detailed monitoring of mineralogical changes through time during bioleaching of sandstone-hosted Cu-mineralization from two Polish Cu-mines. The change of modal mineralogy, mineral associations, microbial activity and copper recovery of a copper bearing sandstone during bioleaching with Acidithiobacillus ferrooxidans DSM 14882 was investigated. A series of 18 batch cultures and 18 abiotic controls in shaking flasks with a solid content of 6 wt.% was prepared and sampled every 3 to 4 days over a period of 18 days. Mineralogical analysis of leaching residues was done by mineral liberation analysis (MLA) and X-Ray powder diffraction (XRD), while chemical analysis of dissolved copper and ferric/ferrous iron was carried out with ion chromatography (IC). The investigated sandstone ore contained 2.5 wt.% copper, mainly bound to the copper minerals chalcocite (Cu2S, 1.3 wt.%), covellite (CuS, 1.0 wt.%) and bornite (Cu5FeS4, 0.9 wt.%). After 18 days the copper extraction was 84% for biotic samples and therefore significantly higher compared to abiotic controls (52%). MLA data showed that biotic dissolution was faster for all three copper ore minerals. The results of detailed mineralogical analysis indicate a passivation by jarosite during the leaching process, especially caused by ammoniojarosite. It was possible to trace progressive changes of each copper sulphide over the entire bioleaching process and calculate dissolution/formation rates by means of MLA data.

Published
2016

49. Mechanismen der Zink-vermittelten Genotoxizität

Author

Heim, J, Tahir, MN, Kaltbeitzel, A, Mailänder, V, Lüddens, H, Tremel, W, and Brieger, J

Subjects
ddc: 610, 610 Medical sciences, Medicine
Abstract

Zink Oxid Nanopartikel (ZnO-NP) können ihre genotoxische Wirkung direkt durch Interaktion der Partikel mit zellulären Strukturen oder indirekt über ihre Dissoziation zu Zn2+ vermitteln. Ziel dieser Studie war es, in vitro die genotoxische Wirkung sowie die zugrundeliegenden[for full text, please go to the a.m. URL], 86. Jahresversammlung der Deutschen Gesellschaft für Hals-Nasen-Ohren-Heilkunde, Kopf- und Hals-Chirurgie

Published
2015
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