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Depolarization and beam-beam effects at the linear collider.

Research output: Working paper

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Depolarization and beam-beam effects at the linear collider. / Bailey, I. R.; Hartin, A. F.; Moortgat-Pick, G. A. et al.
2008.

Research output: Working paper

Harvard

Bailey, IR, Hartin, AF, Moortgat-Pick, GA, Clarke, JA, Barber, DP, Baynham, E, Bradhaw, TW, Brummitt, A, Bungau, A, Carr, FS, Collomb, NA, Dainton, J, Hesselbach, S, Hock, KM, Jenner, LJ, Lintern, A, Malyshev, OB, Malysheva, LI, Rochford, J, Ryder, NC, Scott, DJ, Shepherd, BJA & Zang, L 2008 'Depolarization and beam-beam effects at the linear collider.'. <http://www.eurotev.org>

APA

Bailey, I. R., Hartin, A. F., Moortgat-Pick, G. A., Clarke, J. A., Barber, D. P., Baynham, E., Bradhaw, T. W., Brummitt, A., Bungau, A., Carr, F. S., Collomb, N. A., Dainton, J., Hesselbach, S., Hock, K. M., Jenner, L. J., Lintern, A., Malyshev, O. B., Malysheva, L. I., Rochford, J., ... Zang, L. (2008). Depolarization and beam-beam effects at the linear collider. http://www.eurotev.org

Vancouver

Bailey IR, Hartin AF, Moortgat-Pick GA, Clarke JA, Barber DP, Baynham E et al. Depolarization and beam-beam effects at the linear collider. 2008.

Author

Bailey, I. R. ; Hartin, A. F. ; Moortgat-Pick, G. A. et al. / Depolarization and beam-beam effects at the linear collider. 2008.

Bibtex

@techreport{a5bb465dec3047ed9081821359297376,
title = "Depolarization and beam-beam effects at the linear collider.",
abstract = "The clean environment of a lepton linear collider allows high-precision measurements for physics analyses. In order to exploit this potential, precise knowledge about the polarization state of the beams is also required. In this paper we concentrate on depolarization effects caused by the intense beam.beam interaction, which is expected to be the dominant source of depolarization. Higher-order effects, as well as critical analyses of the theoretical assumptions used in the past and theoretical improvements in the derivation of suitable equations, are given. Updates on existing simulation programs are reported. Numerical results for the design of the International Linear Collider (ILC) are discussed",
author = "Bailey, {I. R.} and Hartin, {A. F.} and Moortgat-Pick, {G. A.} and Clarke, {J. A.} and Barber, {D. P.} and E. Baynham and Bradhaw, {T. W.} and A. Brummitt and A. Bungau and Carr, {F. S.} and Collomb, {N. A.} and J. Dainton and S. Hesselbach and Hock, {K. M.} and Jenner, {L. J.} and A. Lintern and Malyshev, {O. B.} and Malysheva, {L. I.} and J. Rochford and Ryder, {N. C.} and Scott, {D. J.} and Shepherd, {B. J. A.} and L. Zang",
year = "2008",
language = "English",
type = "WorkingPaper",

}

RIS

TY - UNPB

T1 - Depolarization and beam-beam effects at the linear collider.

AU - Bailey, I. R.

AU - Hartin, A. F.

AU - Moortgat-Pick, G. A.

AU - Clarke, J. A.

AU - Barber, D. P.

AU - Baynham, E.

AU - Bradhaw, T. W.

AU - Brummitt, A.

AU - Bungau, A.

AU - Carr, F. S.

AU - Collomb, N. A.

AU - Dainton, J.

AU - Hesselbach, S.

AU - Hock, K. M.

AU - Jenner, L. J.

AU - Lintern, A.

AU - Malyshev, O. B.

AU - Malysheva, L. I.

AU - Rochford, J.

AU - Ryder, N. C.

AU - Scott, D. J.

AU - Shepherd, B. J. A.

AU - Zang, L.

PY - 2008

Y1 - 2008

N2 - The clean environment of a lepton linear collider allows high-precision measurements for physics analyses. In order to exploit this potential, precise knowledge about the polarization state of the beams is also required. In this paper we concentrate on depolarization effects caused by the intense beam.beam interaction, which is expected to be the dominant source of depolarization. Higher-order effects, as well as critical analyses of the theoretical assumptions used in the past and theoretical improvements in the derivation of suitable equations, are given. Updates on existing simulation programs are reported. Numerical results for the design of the International Linear Collider (ILC) are discussed

AB - The clean environment of a lepton linear collider allows high-precision measurements for physics analyses. In order to exploit this potential, precise knowledge about the polarization state of the beams is also required. In this paper we concentrate on depolarization effects caused by the intense beam.beam interaction, which is expected to be the dominant source of depolarization. Higher-order effects, as well as critical analyses of the theoretical assumptions used in the past and theoretical improvements in the derivation of suitable equations, are given. Updates on existing simulation programs are reported. Numerical results for the design of the International Linear Collider (ILC) are discussed

M3 - Working paper

BT - Depolarization and beam-beam effects at the linear collider.

ER -