Multicomponent meson superfluids in chiral perturbation theory

We show that multicomponent meson systems can be described by chiral perturbation theory. We chiefly focus on a system of two pion gases at different isospin chemical potential, deriving the general expression of the chiral Lagrangian, the ground state properties and the spectrum of the low-energy e...

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Bibliographic Details
Published in:Physical review. D 2019-05, Vol.99 (9), p.096011, Article 096011
Main Authors: Lepori, L., Mannarelli, M.
Format: Article
Language:English
Subjects:
Chemical potential
Chiral dynamics
Locking
Organic chemistry
Perturbation theory
Phase transitions
Stability
Superfluidity
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Summary:We show that multicomponent meson systems can be described by chiral perturbation theory. We chiefly focus on a system of two pion gases at different isospin chemical potential, deriving the general expression of the chiral Lagrangian, the ground state properties and the spectrum of the low-energy excitations. We consider two different kinds of interactions between the two meson gases: one which does not lock the two chiral symmetry groups and one which does lock them. The former is a kind of interaction that has already been discussed in multicomponent superfluids. The latter is perhaps more interesting, because it seems to be related to an instability. Although the pressure of the system does not show any instability, we find that for sufficiently strong locking, the spectrum of one Bogolyubov mode becomes tachyonic. This unstable branch seems to indicate a transition to an inhomogeneous phase.
ISSN:2470-0010
2470-0029
DOI:10.1103/PhysRevD.99.096011