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@ARTICLE{Brodsky:18592,
author = {Brodsky, S. J. and Guo, F.-K. and Hanhart, C. and Meißner,
U.-G.},
title = {{I}sospin splittings of doubly heavy baryons},
journal = {Physics letters / B},
volume = {698},
issn = {0370-2693},
address = {Amsterdam},
publisher = {North-Holland Publ.},
reportid = {PreJuSER-18592},
pages = {251 - 255},
year = {2011},
note = {We want to thank J. Gasser for helpful discussions and
U.-G.M. acknowledges a useful communication from H.
Leutwyler. S.J.B. is indebted to M. Karliner and H. Lipkin
for very helpful discussions on effective diquark models. We
also thank J. Engelfried, J.-P. Lansberg, A. Goldhaber and
J. Russ for comments. F.-K.G., C.H. and U.-G.M. would like
to thank the DFG (SFB/TR 16, "Subnuclear Structure of
Matter"), the HGF (Virtual Institute "Spin and Strong QCD",
VH-VI-231), and the European Community-Research
Infrastructure Integrating Activity "Study of Strongly
Interacting Matter" (acronym HadronPhysics2, Grant Agreement
No. 227431) under the Seventh Framework Programme of EU for
support. U.-G.M. also thanks the BMBF for support (grant
06BN9006). This research was also supported by the
Department of Energy, contract DE-AC02-76SF00515.},
abstract = {The SELEX Collaboration has reported a very large isospin
splitting of doubly charmed baryons. We show that this
effect would imply that the doubly charmed baryons are very
compact. One intriguing possibility is that such baryons
have a linear geometry Q-q-Q where the light quark q
oscillates between the two heavy quarks Q, analogous to a
linear molecule such as carbon dioxide. However, using
conventional arguments, the size of a heavy-light hadron is
expected to be around 0.5 fm, much larger than the size
needed to explain the observed large isospin splitting.
Assuming the distance between two heavy quarks is much
smaller than that between the light quark and a heavy one,
the doubly heavy baryons are related to the heavy mesons via
heavy quark-diquark symmetry. Based on this symmetry, we
predict the isospin splittings for doubly heavy baryons
including Xi(cc), Xi(bb) and Xi(bc). The prediction for the
Xi(cc) is much smaller than the SELEX value. On the other
hand, the Xi(bb) baryons are predicted to have an isospin
splitting as large as (6.3 +/- 1.7) MeV. An experimental
study of doubly bottomed baryons is therefore very important
to better understand the structure of baryons with heavy
quarks. (C) 2011 Elsevier B.V. All rights reserved.},
keywords = {baryon: heavy (INSPIRE) / isospin (INSPIRE) / charmed
baryon: bottom baryon (INSPIRE) / charm: 2 (INSPIRE) /
bottom: 2 (INSPIRE) / baryon: mass difference (INSPIRE) /
pentaquark (INSPIRE)},
cin = {IKP-3},
ddc = {530},
cid = {I:(DE-Juel1)IKP-3-20111104},
pnm = {Physik der Hadronen und Kerne / European Community: 227431},
pid = {G:(DE-Juel1)FUEK413 / G:(EU-Grant)227431},
shelfmark = {Physics, Multidisciplinary},
typ = {PUB:(DE-HGF)16},
UT = {WOS:000289543700010},
eprint = {1101.1983},
howpublished = {arXiv:1101.1983},
archivePrefix = {arXiv},
SLACcitation = {$\%\%CITATION$ = $arXiv:1101.1983;\%\%$},
doi = {10.1016/j.physletb.2011.03.014},
url = {https://juser.fz-juelich.de/record/18592},
}
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