Excited flux tube from qqg hybrid mesons

[en] In the framework of quark models, hybrid mesons are either seen as two-body q¯ systems with an excited flux tube connecting the quark to the antiquark or as three-body q¯g systems including a constituent gluon. In this work we show that, starting from the three-body wave function of the q¯g hybrid meson in which the gluonic degrees of freedom are averaged, the excited flux tube picture emerges as an equivalent q¯ potential. This equivalence between the excited flux tube and the constituent-gluon approach is confirmed for heavy hybrid mesons but, for the first time, it is shown to hold in the light sector too, provided the contribution of the quark dynamics is correctly taken into account.

Research center :

AGIF - Algèbre, Géométrie et Interactions fondamentales

Disciplines :

Physics

Author, co-author :

Buisseret, Fabien

Semay, Claude

Mathieu, Vincent ; Université de Mons > Faculté des Sciences > Physique nucléaire et subnucléaire

Silvestre-Brac, B.

Language :

English

Title :

Excited flux tube from qqg hybrid mesons

Publication date :

23 May 2007

Journal title :

European Physical Journal. A, Hadrons and Nuclei

ISSN :

1434-6001

Publisher :

Springer, Germany

Volume :

Issue :

Pages :

123-126

Peer reviewed :

Peer Reviewed verified by ORBi

Research unit :

S824 - Physique nucléaire et subnucléaire

Research institute :

R150 - Institut de Recherche sur les Systèmes Complexes

Available on ORBi UMONS :

since 10 June 2010

Statistics

Number of views

1 (0 by UMONS)

Number of downloads

0 (0 by UMONS)

More statistics

Scopus citations^®

Scopus citations^®
without self-citations

OpenCitations

Bibliography

C. Me Neile, Nucl. Phys. A 711, 303 (2002).
K.J. Juge, J. Kuti, C. Morningstar, Phys. Rev. Lett. 90, 161601 (2003).
T.J. Allen, M.G. Olsson, S. Veseli, Phys. Lett. B 434, 110 (1998).
M. Lüscher, K. Symanzik, P. Weisz, Nucl. Phys. B 173, 365 (1980).
D. Horn, J. Mandula, Phys. Rev. D 17, 898 (1978);
A. Le Yaouanc, L. Oliver, O. Pène, J.-C. Raynal, S. Ono, Z. Phys. C 28, 309 (1985).
Y.S. Kalashnikova, D.S. Kuzmenko, Phys. At. Nucl. 66, 955 (2003)
(Yad. Fiz. 66, 988 (2003));
E. Abreu, P. Bicudo, J. Phys. G 34, 195207 (2007).
V. Mathieu, C. Semay, F. Brau, Eur. Phys. J. A 27, 225 (2006).
F. Buisseret, V. Mathieu, Eur. Phys. J. A 29, 343 (2006).
P. Bicudo, M. Cardoso, O. Oliveira, arXiv: 0704.2156.
V. Mathieu, C. Semay, B. Silvestre-Brac, Phys. Rev. D 74, 054002 (2006).
F. Buisseret, O. Semay, Phys. Rev. D 74, 114018 (2006).
J.F. Arvis, Phys. Lett. B 127, 106 (1983).
Y. Suzuki, K. Varga, Stochastic Variational Approach to Quantum-Mechanical Few-Body Problems (Springer Verlag, Berlin, Heidelberg, 1998).
F. Buisseret, C. Semay, Phys. Rev. E 75, 026705 (2007).
D. Baye, P.-H. Heenen, J. Phys. A 19, 2041 (1986);
M. Vincke, L. Malegat, D. Baye, J. Phys. B 26, 811 (1993).
C. Semay, D. Baye, M. Hesse, B. Silvestre-Brac, Phys. Rev. E 64, 016703 (2001).
F. Buisseret, O. Semay, hep-ph/0611216.
G. Lambiase, V.V. Nesterenko, Phys. Rev. D 54, 6387 (1996).
V. Mathieu, F. Buisseret, hep-ph/0702226.