Saved in:
Bibliographic Details
Main Authors: Matsubara, Naoki, Yano, Rikizo, Saigusa, Kazushige, Takenaka, Koshi, Okamoto, Yoshihiko, Tanaka, Yukio, Kashiwaya, Satoshi
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2412.08335
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866911336319942656
author Matsubara, Naoki
Yano, Rikizo
Saigusa, Kazushige
Takenaka, Koshi
Okamoto, Yoshihiko
Tanaka, Yukio
Kashiwaya, Satoshi
author_facet Matsubara, Naoki
Yano, Rikizo
Saigusa, Kazushige
Takenaka, Koshi
Okamoto, Yoshihiko
Tanaka, Yukio
Kashiwaya, Satoshi
contents The appearance of broken time-reversal symmetry (TRS) in superconducting states is an intriguing issue in solid-state physics because of the incompatibility of the spontaneous magnetic field and the Meissner effect. We identify broken TRS in Pd-doped CaAgP (CaAg$_{0.9}$Pd$_{0.1}$P) by tunneling spectroscopy through the magnetic field response of conductance spectra. CaAg$_{0.9}$Pd$_{0.1}$P is a nodal-line semimetal with exotic electronic states such as drumhead surface states and surface superconductivity. Tunneling conductance spectra acquired at the side surfaces of CaAg$_{0.9}$Pd$_{0.1}$P under an applied magnetic field exhibit broad zero-bias peaks with small asymmetric structures. Surprisingly, the asymmetric structures are reversed exactly by flipping the field direction. On the basis of an analysis which stands on the formula of tunneling junctions for unconventional superconductors, these results are consistent with the pair potential of the superconductivity breaks the TRS and is strongly coupled to an external magnetic field. We reveal the novel character of superconducting nodal-line semimetals by developing the TRS sensitivity of tunneling spectroscopy. Our results serve as an exploration of broken TRS in superconducting states realized in topological materials.
format Preprint
id arxiv_https___arxiv_org_abs_2412_08335
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Broken time-reversal symmetry detected by tunneling spectroscopy of superconducting Pd-doped CaAgP
Matsubara, Naoki
Yano, Rikizo
Saigusa, Kazushige
Takenaka, Koshi
Okamoto, Yoshihiko
Tanaka, Yukio
Kashiwaya, Satoshi
Superconductivity
The appearance of broken time-reversal symmetry (TRS) in superconducting states is an intriguing issue in solid-state physics because of the incompatibility of the spontaneous magnetic field and the Meissner effect. We identify broken TRS in Pd-doped CaAgP (CaAg$_{0.9}$Pd$_{0.1}$P) by tunneling spectroscopy through the magnetic field response of conductance spectra. CaAg$_{0.9}$Pd$_{0.1}$P is a nodal-line semimetal with exotic electronic states such as drumhead surface states and surface superconductivity. Tunneling conductance spectra acquired at the side surfaces of CaAg$_{0.9}$Pd$_{0.1}$P under an applied magnetic field exhibit broad zero-bias peaks with small asymmetric structures. Surprisingly, the asymmetric structures are reversed exactly by flipping the field direction. On the basis of an analysis which stands on the formula of tunneling junctions for unconventional superconductors, these results are consistent with the pair potential of the superconductivity breaks the TRS and is strongly coupled to an external magnetic field. We reveal the novel character of superconducting nodal-line semimetals by developing the TRS sensitivity of tunneling spectroscopy. Our results serve as an exploration of broken TRS in superconducting states realized in topological materials.
title Broken time-reversal symmetry detected by tunneling spectroscopy of superconducting Pd-doped CaAgP
topic Superconductivity
url https://arxiv.org/abs/2412.08335