Publications
Publication Information
Title | High Precision Measurement of Compton Scattering in the 5 GeV region |
Authors | Pawel Ambrozewicz, Li Ye, Yelena Prok, Ilya Larin, Abdellah Ahmidouch, K. Baker, Vitaly Baturin, LaRay Benton, Aron Bernstein, Volker Burkert, Eric Clinton, Philip Cole, P. Collins, Samuel Danagoulian, G. Davidenko, Raphael Demirchyan, Alexandre Deur, Alina Dolgolenko, Dipangkar Dutta, Georgiy Dzyubenko, Anatoly Evdokimov, Gleb Fedotov, J. Feng, Marianna Gabrielyan, Liping Gan, Haiyan Gao, Ashot Gasparian, N. Gevorgyan, S. Gevorkyan, Oleksandr Glamazdin, Vladimir Goryachev, Lei Guo, Vardan Gyurjyan, Kelli Hardy, Evgeny Isupov, Mark Ito, Liyang Jiang, H. Kang, David Kashy, Mahbub Khandaker, Paul Kingsberry, Franz Klein, Ameya Kolarkar, Mykhailo Konchatnyi, O. Korchin, Wolfgang Korsch, Oleksiy Kosinov, Stanley Kowalski, Mikhail Kubantsev, A. Kubarovsky, Valery Kubarovsky, David Lawrence, X. Li, Maxime Levillain, H. Lu, Lingling Ma, Philippe Martel, Vladimir Matveev, Dustin McNulty, Bernhard Mecking, Anna Micherdzinska, Brian Milbrath, Ralph Minehart, Rory Miskimen, Vasiliy Mochalov, Brian Morrison, Sekazi Mtingwa, Itaru Nakagawa, Steven Overby, Eugene Pasyuk, Marvin Payen, Kijun Park, Ron Pedroni, William Phelps, Dan Protopopescu, Dipak Rimal, Barry Ritchie, Dmitry Romanov, Carlos Salgado, Albert Shahinyan, Alexandre Sitnikov, Daniel Sober, Stepan Stepanyan, W. Stephens, V. Tarasov, Simon Taylor, Aram Teymurazyan, Jarreas Underwood, Alexander Vasiliev, Vladimir Vishnyakov, Dennis Weygand, Michael Wood, Y.-W. Zhang, Shuhua Zhou, Benedikt Zihlmann |
JLAB number | JLAB-PHY-19-2937 |
LANL number | arXiv:1903.05529 |
Other number | DOE/OR/23177-4713 |
Document Type(s) | (Journal Article) |
Associated with EIC: | No |
Supported by Jefferson Lab LDRD Funding: | No |
Funding Source: | Nuclear Physics (NP) |
Journal Compiled for Physics Letters B Volume 797 Page(s) 134884 Refereed | |
Publication Abstract: | The cross section of atomic electron Compton scattering $\gamma + e \rightarrow \gamma^\prime + e^\prime $ was measured in the 4.40--5.475 GeV photon beam energy region by the {\em PrimEx} collaboration at Jefferson Lab with an accuracy of 2\% and less. The results are consistent with theoretical predictions that include next-to-leading order radiative corrections. The measurements provide the first high precision test of this elementary QED process at beam energies greater than 0.1 GeV. |
Experiment Numbers: | E02-103 |
Group: | Hall B |
Document: | |
DOI: | https://doi.org/10.1016/j.physletb.2019.134884 |
Accepted Manuscript: | 1-s2.0-S0370269319305982-main.pdf |
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