High purity 100 GeV electron identification with synchrotron radiation

Author:

Depero E.,Banerjee D.,Burtsev V.,Chumakov A.,Cooke D.,Dermenev A.V.,Donskov S.V.,Dubinin F.,Dusaev R.R.,Emmenegger S.,Fabich A.,Frolov V.N.,Gardikiotis A.,Gninenko S.N.,Hösgen M.,Karneyeu A.E.,Ketzer B.,Kirsanov M.M.,Konorov I.V.,Kramarenko V.A.,Kuleshov S.V.,Lyubovitskij V.E.,Lysan V.,Matveev V.A.,Mikhailov Yu.V.,Myalkovskiy V.V.,Peshekhonov V.D.,Peshekhonov D.V.,Polyakov V.A.,Radics B.,Rubbia A.,Samoylenko V.D.,Tikhomirov V.O.,Tlisov D.A.,Toropin A.N.,Vasilishin B.,Arenas G. Vasquez,Ulloa P.,Crivelli P.

Funder

HISKP

University of Bonn (Germany)

JINR (Dubna)

MON

RAS (Russia)

Russian Federation program “Nauka”

ETH Zurich

SNSF

FONDECYT

RSF

Publisher

Elsevier BV

Subject

Instrumentation,Nuclear and High Energy Physics

Reference18 articles.

1. A. Andreas, et al., Proposal for an experiment to search for light dark matter at the SPS, CERN-SPSC-2013-034; SPSC-P-348, 2013, arXiv:1312.3309 [hep-ex].

2. Search for invisible decays of sub-GeV dark photons in missing-energy events at the CERN SPS;Banerjee;Phys. Rev. Lett.,2017

3. http://cern.ch/sba.

4. Synchrotron Radiation;Wiedemann,2003

5. J. Alexander, et al., Dark Sectors 2016 Workshop: Community Report, FERMILAB-CONF-16-421, arXiv:1608.08632.

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