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Study of light nuclei by polarization observables in electron scattering

by S. \v{S}irca

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Submission summary

Authors (as registered SciPost users): Simon Sirca
Submission information
Preprint Link: scipost_201910_00013v1  (pdf)
Date accepted: 2019-10-28
Date submitted: 2019-10-14 02:00
Submitted by: Sirca, Simon
Submitted to: SciPost Physics Proceedings
Proceedings issue: 24th European Few Body Conference (EFB2019)
Ontological classification
Academic field: Physics
Specialties:
  • Nuclear Physics - Experiment
Approach: Experimental

Abstract

Electron-induced proton, neutron and deuteron knock-out remains the most versatile probe of the electro-magnetic properties and spin structure of light nuclei. The advent of highly polarized beams and targets and improvements in recoil polarization methods, as well as analysis and simulation techniques, have enabled us to study the static and dynamical properties of few-body systems with unprecedented precision. Recent experiments at Jefferson Lab and MAMI are presented and put into perspective of state-of-the art Faddeev calculations, with focus on the $^\mathbf{3}\mathbf{He}$ nucleus.

Published as SciPost Phys. Proc. 3, 048 (2020)


Reports on this Submission

Report #2 by Anonymous (Referee 2) on 2019-10-22 (Contributed Report)

  • Cite as: Anonymous, Report on arXiv:scipost_201910_00013v1, delivered 2019-10-22, doi: 10.21468/SciPost.Report.1502

Report

The paper is well written and will make a useful contribution to the proceedings of the meeting and demonstrates the state-of-the-art which is possible in the electron scattering/nuclear break-up measurements using polarized beams and targets.

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