Mass inequalities for baryons with heavy quarks

Baryons with one or more heavy quarks have been shown, in the context of a nonrelativistic description, to exhibit mass inequalities under permutations of their quarks, when spin averages are taken. These inequalities sometimes are invalidated when spin-dependent forces are taken into account. A not...

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Veröffentlicht in:	Physical review. D 2020-02, Vol.101 (3), Article 036015
Hauptverfasser:	Karliner, Marek, Rosner, Jonathan L.
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Sprache:	eng
Schlagworte:	Baryons Exothermic reactions Inequalities Nuclear fusion Nuclear reactions Permutations Quarks
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description	Baryons with one or more heavy quarks have been shown, in the context of a nonrelativistic description, to exhibit mass inequalities under permutations of their quarks, when spin averages are taken. These inequalities sometimes are invalidated when spin-dependent forces are taken into account. A notable instance is the inequality 2E(Mmm)>E(MMm)+E(mmm), where m=mu=md, satisfied for M=mb or M=mc but not for M=ms, unless care is taken to remove effects of spin-spin interactions. Thus in the quark-level analog of nuclear fusion, the reactions ΛbΛb→ΞbbN and ΛcΛc→Ξcc++n are exothermic, releasing respectively 138 and 12 MeV, while ΛΛ→ΞN is endothermic, requiring an input of between 23 and 29 MeV. Here we explore such mass inequalities in the context of an approach, previously shown to predict masses successfully, in which contributions consist of additive constituent-quark masses, spin-spin interactions, and additional binding terms for pairs each member of which is at least as heavy as a strange quark.
doi_str_mv	10.1103/PhysRevD.101.036015
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These inequalities sometimes are invalidated when spin-dependent forces are taken into account. A notable instance is the inequality 2E(Mmm)>E(MMm)+E(mmm), where m=mu=md, satisfied for M=mb or M=mc but not for M=ms, unless care is taken to remove effects of spin-spin interactions. Thus in the quark-level analog of nuclear fusion, the reactions ΛbΛb→ΞbbN and ΛcΛc→Ξcc++n are exothermic, releasing respectively 138 and 12 MeV, while ΛΛ→ΞN is endothermic, requiring an input of between 23 and 29 MeV. 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subjects	Baryons Exothermic reactions Inequalities Nuclear fusion Nuclear reactions Permutations Quarks
title	Mass inequalities for baryons with heavy quarks
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