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个人简介
Or Hen grew up in Moshav Even-Sapir, in the countryside of Jerusalem, Israel. Before joining the MIT physics faculty in July 2017, Hen was an MIT Pappalardo Fellow in Physics from 2015-2017.
Hen received various prizes and fellowships for his work to date, including the APS Stuart J. Freedman Award in Experimental Nuclear Physics (2019), U.S. DOE Office of Science Early Career Scientist and Engineer Award (2019), IUPAP Young Scientist Prize in Nuclear Physics (2019), G. Altarelli award (2018), Amar G. Bose Fellowship (2018), Fermi Lab Intensity-Frontier fellowship (2016), Rothschild Fellowship (2015), MIT Pappalardo Fellowship (2015), Jefferson Science Association dissertation prizes (2016), Israeli Physics Society dissertation prizes (2015), A. Pazi Award of the Israeli Council for Higher Education (2013) and the Y. Eisenberg Prize of Tel-Aviv University (2011).
Professor Hen’s research focuses on studies of QCD effects in the nuclear medium, and the interplay between partonic and nucleonic degrees of freedom in nuclei. Specifically, Hen uses high-energy electron, neutrino, photon, and proton scattering off atomic nuclei to study Short-Range Correlations (SRCs): Temporal fluctuations of high-density, high-momentum, nucleon clusters in nuclei. These pairs account for almost all high-momentum (k>k_F) nucleon in nuclei, constitute 20-25% of the nuclear wave-function, and are a leading candidate for non-nucleonic configurations in nuclei.
Hen and collaborators conducted experiments at the US based Thomas-Jefferson and Fermi National Accelerator Laboratories, as well as other accelerators around the world, where they study the structure and characteristics of SRC pairs and examined their effect on various topics in nuclear, particle, atomic and astrophysics. For example, in a recent series of publications Hen and collaborators have shown that SRCs in atomic nuclei are predominantly neutron-proton pairs and demonstrated its significant implications to quark distributions in nuclei (the "EMC effect"); the free (un-bound) neutron structure; generalization of effective theories for two-component Fermi-gases to atomic nuclei, the nuclear symmetry energy and neutron stars structure; and more.
Hen received various prizes and fellowships for his work to date, including the APS Stuart J. Freedman Award in Experimental Nuclear Physics (2019), U.S. DOE Office of Science Early Career Scientist and Engineer Award (2019), IUPAP Young Scientist Prize in Nuclear Physics (2019), G. Altarelli award (2018), Amar G. Bose Fellowship (2018), Fermi Lab Intensity-Frontier fellowship (2016), Rothschild Fellowship (2015), MIT Pappalardo Fellowship (2015), Jefferson Science Association dissertation prizes (2016), Israeli Physics Society dissertation prizes (2015), A. Pazi Award of the Israeli Council for Higher Education (2013) and the Y. Eisenberg Prize of Tel-Aviv University (2011).
Professor Hen’s research focuses on studies of QCD effects in the nuclear medium, and the interplay between partonic and nucleonic degrees of freedom in nuclei. Specifically, Hen uses high-energy electron, neutrino, photon, and proton scattering off atomic nuclei to study Short-Range Correlations (SRCs): Temporal fluctuations of high-density, high-momentum, nucleon clusters in nuclei. These pairs account for almost all high-momentum (k>k_F) nucleon in nuclei, constitute 20-25% of the nuclear wave-function, and are a leading candidate for non-nucleonic configurations in nuclei.
Hen and collaborators conducted experiments at the US based Thomas-Jefferson and Fermi National Accelerator Laboratories, as well as other accelerators around the world, where they study the structure and characteristics of SRC pairs and examined their effect on various topics in nuclear, particle, atomic and astrophysics. For example, in a recent series of publications Hen and collaborators have shown that SRCs in atomic nuclei are predominantly neutron-proton pairs and demonstrated its significant implications to quark distributions in nuclei (the "EMC effect"); the free (un-bound) neutron structure; generalization of effective theories for two-component Fermi-gases to atomic nuclei, the nuclear symmetry energy and neutron stars structure; and more.
研究兴趣
论文共 194 篇作者统计合作学者相似作者
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Journal of High Energy Physicsno. 2 (2024): 1-24
Weijun Li,Marco Roda,Julia Tena-Vidal,Costas Andreopoulos,Xianguo Lu,Adi Ashkenazi,Joshua Barrow,Steven Dytman,Hugh Gallagher,Alfonso Andres Garcia Soto,Steven Gardiner, Matan Goldenberg,
arxiv(2024)
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arxiv(2024)
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arXiv (Cornell University) (2023)
MicroBooNE collaboration, P. Abratenko, O. Alterkait,D. Andrade Aldana, J. Anthony, L. Arellano, J. Asaadi, A. Ashkenazi, S. Balasubramanian, B. Baller, G. Barr, J. Barrow,
arXiv (Cornell University) (2023)
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arxiv(2023)
R. Alarcon, R. Beck,J. C. Bernauer, M. Broering,E. Cline, B. Dongwi,I. Fernando, M. Finger, M. Finger Jr.,I. Friščić,T. Gautam,D. K. Hasell,
arxiv(2023)
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