Emergent chirality and superfluidity of parity-doubled baryons in neutron stars

arXiv - PHYS - Nuclear Theory Pub Date : 2024-09-09 DOI:arxiv-2409.05670

Shigehiro Yasui, Muneto Nitta, Chihiro Sasaki

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Abstract

We propose novel superfluids induced by the parity-doubled baryons. The parity-doubled baryons, i.e., a nucleon $N(940)$ with spin-parity $J^{P}=1/2^{+}$ and an excited nucleon $N^{\ast}(1535)$ with $J^{P}=1/2^{-}$ in vacuum, become degenerate at sufficiently high density where the chiral symmetry is restored. In this study, we extend the conventional $\mathrm{U}(1)$ chiral symmetry to the higher dimensional symmetries, dubbed emergent chiral symmetries, including the naive and mirror assignments as their subgroups. Starting with the Lagrangian up to four-point interactions among the neutron $n$ and its chiral partner $n^{\ast}$, neutral components in $N$ and $N^{\ast}$, in pure neutron matter, we investigate the properties of the ground state with a pairing gap generated by the $n$ and $n^{\ast}$ in the mean-field approximation. We find vector-type condensates that induce the dynamical breaking of a new class of internal symmetries, emergent chiral symmetries, as well as the baryon number and the rotational symmetries of the real space, indicating the appearance of massless Nambu-Goldstone bosons consisting of six quarks: emergent pions, superfluid phonons, and magnons, respectively. We also study the fermionic excitation modes at low-energy scales, and show that they exhibit a spatial anisotropy of the propagation at the Dirac cone in momentum space. Some phenomenological implications are advocated, shedding new light on the properties of neutron stars.

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中子星中出现的奇异性和奇偶翻倍重子的超流动性

我们提出了由奇偶性双重子诱发的新型超流体。奇偶性双重子，即自旋奇偶性为$J^{P}=1/2^{+}$的核子$N(940)$和激发核子$N^{ast}(1535)$，其自旋奇偶性为$J^{P}=1/2^{-}$，在足够高的密度下会变性，从而恢复手性对称。在本研究中，我们将传统的$\mathrm{U}(1)$手性对称性扩展到高维对称性，称为新兴手性对称性，包括作为其子群的天真赋值和镜像赋值。从纯中子物质中的中子$n$及其手性伙伴$n^{/ast}$、$N$和$N^{/ast}$中的中性分量之间的四点相互作用的拉格朗日开始，我们研究了基态的性质，基态的配对间隙由均值场近似中的$n$和$n^{/ast}$产生。我们发现矢量型凝聚态会诱发一类新的内部对称性--新兴手性对称性--的动力学破缺，以及实空间的重子数和旋转对称性的破缺，这表明出现了由六夸克组成的无质量南布-金石玻色子：分别是新兴离子、超流声子和磁子。我们还研究了低能尺度的费米子激发模式，并表明它们在动量空间的狄拉克锥处的传播表现出空间各向异性。研究还提出了一些现象学意义，为中子星的性质提供了新的启示。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Nuclear Theory

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