Saved in:
Bibliographic Details
Main Authors: Yang, Xin-Xin, Zhang, Shuai, Ding, Kun, Li, Xiaopeng
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2605.24439
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866918519531110400
author Yang, Xin-Xin
Zhang, Shuai
Ding, Kun
Li, Xiaopeng
author_facet Yang, Xin-Xin
Zhang, Shuai
Ding, Kun
Li, Xiaopeng
contents Engineering quantum materials with cavity fields has emerged as a powerful route to manipulate phases of quantum matter in solids. Here we demonstrate that cavity vacuum fluctuations alone can drive the emergence of triplet superconductivity in an otherwise singlet superconductor. The vacuum field renormalizes the electronic band structure in a polarization dependent manner, reshaping the Fermi surface and altering the competition among symmetry allowed pairing channels. As a result, multiple superconducting phases arise from the cavity vacuum fluctuations. Above a critical light matter coupling, the leading instability switches from singlet to triplet pairing, yielding a superconducting state absent in the bare material. This vacuum induced symmetry transition produces distinct modifications of the gap structure and low energy quasiparticle spectrum. Our results establish cavity vacuum engineering as a mechanism for generating unconventional superconducting phases and stabilizing triplet states of potential relevance for topological superconductivity.
format Preprint
id arxiv_https___arxiv_org_abs_2605_24439
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Emergence of Triplet Superconductivity from Cavity Vacuum Fluctuations
Yang, Xin-Xin
Zhang, Shuai
Ding, Kun
Li, Xiaopeng
Superconductivity
Engineering quantum materials with cavity fields has emerged as a powerful route to manipulate phases of quantum matter in solids. Here we demonstrate that cavity vacuum fluctuations alone can drive the emergence of triplet superconductivity in an otherwise singlet superconductor. The vacuum field renormalizes the electronic band structure in a polarization dependent manner, reshaping the Fermi surface and altering the competition among symmetry allowed pairing channels. As a result, multiple superconducting phases arise from the cavity vacuum fluctuations. Above a critical light matter coupling, the leading instability switches from singlet to triplet pairing, yielding a superconducting state absent in the bare material. This vacuum induced symmetry transition produces distinct modifications of the gap structure and low energy quasiparticle spectrum. Our results establish cavity vacuum engineering as a mechanism for generating unconventional superconducting phases and stabilizing triplet states of potential relevance for topological superconductivity.
title Emergence of Triplet Superconductivity from Cavity Vacuum Fluctuations
topic Superconductivity
url https://arxiv.org/abs/2605.24439