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Tagged EMC Measurements on Light Nuclei | Whitney Armstrong
; John Arrington
; Ian Cloet
; Kawtar Hafidi
; Mohammad Hattawy
; David Potteveld
; Paul Reimer
; Seamus Riordan
; Z. Yi
; Jacques Ball
; Maxime Defurne
; Michel Garcon
; Herve Moutarde
; Sebastien Procureur
; Franck Sabatie
; Wim Cosyn
; Malek Mazouz
; Alberto Accardi
; Julien Bettane
; Gabriel Charles
; Raphael Dupre
; Michel Guidal
; Dominique Marchand
; Carlos Munoz
; Silvia Niccolai
; Eric Voutier
; Krishna Adhikari
; James Dunne
; Dipangkar Dutta
; Lamiaa El Fassi
; Li Ye
; Moskov Amarian
; Gail Dodge
; Vadim Guzey
; Nathan Baltzell
; Francois-Xavier Girod
; Cynthia Keppel
; Stepan Stepanyan
; Burcu Duran
; Sylvester Joosten
; Zein-Eddine Meziani
; Michael Paolone
; Melanie Rehfuss
; Nikos Sparveris
; F. Cao
; Kyungseon Joo
; Andrei Kim
; N. Markov
; Claudio Ciofi degli Atti
; Sergio Scopetta
; William Brooks
; Ahmed El-Alaoui
; Simonetta Liuti
; | Date: |
2 Aug 2017 | Abstract: | We propose to measure tagged deep inelastic scattering from light nuclei
(deuterium and $^4$He) by detecting the low energy nuclear spectator recoil (p,
$^3$H and $^3$He) in addition to the scattered electron. The proposed
experiment will provide stringent tests leading to clear differentiation
between the many models describing the EMC effect, by accessing the bound
nucleon virtuality through its initial momentum at the point of interaction.
Indeed, conventional nuclear physics explanations of the EMC effect mainly
based on Fermi motion and binding effects yield very different predictions than
more exotic scenarios, where bound nucleons basically loose their identity when
embedded in the nuclear medium. By distinguishing events where the interacting
nucleon was slow, as described by a mean field scenario, or fast, very likely
belonging to a correlated pair, will clearly indicate which phenomenon is
relevant to explain the EMC effect. An important challenge for such
measurements using nuclear spectators is the control of the theoretical
framework and, in particular, final state interactions. This experiment will
directly provide the necessary data needed to test our understanding of
spectator tagging and final state interactions in $^2$H and $^4$He and their
impact on the semi-inclusive measurements of the EMC effect described above. | Source: | arXiv, 1708.0891 | Services: | Forum | Review | PDF | Favorites |
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