B_c Meson Production in Nuclear Collisions at RHIC

D. Kharzeev; F. Abe; F. Abe; G. Bhanot; H. Sorge; J. Rafelski; J. Rafelski; J.-P. Blaizot; J.D. Bjorken; Johann Rafelski; K. Kolodziej; K. Martins; K.J. Eskola; K.L. Haglin; M.E. Peskin; Martin Schroedter; P.L. McGaughey; R.L. Thews; Robert L. Thews; S. Bass; S.G. Matinyan; S.M.H. Wong; S.M.H. Wong; S.S. Gershteĭn

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B_c Meson Production in Nuclear Collisions at RHIC

Authors: D. Kharzeev
F. Abe
F. Abe
G. Bhanot
H. Sorge
J. Rafelski
J. Rafelski
J.-P. Blaizot
J.D. Bjorken
Johann Rafelski
K. Kolodziej
K. Martins
K.J. Eskola
K.L. Haglin
M.E. Peskin
Martin Schroedter
P.L. McGaughey
R.L. Thews
Robert L. Thews
S. Bass
S.G. Matinyan
S.M.H. Wong
S.M.H. Wong
S.S. Gershteĭn
Publication date: 1 January 2000
Publisher: 'American Physical Society (APS)'
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Abstract

We study quantitatively the formation and evolution of B_c bound states in a space-time domain of deconfined quarks and gluons (quark-gluon plasma, QGP). At the Relativistic Heavy Ion Collider (RHIC) one expects for the first time that typical central collisions will result in multiple pairs of heavy (in this case charmed) quarks. This provides a new mechanism for the formation of heavy quarkonia which depends on the properties of the deconfined region. We find typical enhancements of about 500 fold for the B_c production yields over expectations from the elementary coherent hadronic B_c-meson production scenario. The final population of bound states may serve as a probe of the plasma phase parameters.Comment: 9 Pages, 11 Postscript Figure

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