Rotational Symmetry Breaking in a Trigonal superconductor Nb-doped Bi2Se3

The search for unconventional superconductivity has been focused on materials with strong spin-orbit coupling and unique crystal lattices. Doped bismuth selenide (Bi\(_2\)Se\(_3\)) is a strong candidate given the topological insulator nature of the parent compound and its triangular lattice. The cou...

Full description

Saved in:
Bibliographic Details
Published in:arXiv.org 2016-03
Main Authors: Asaba, Tomoya, Lawson, B J, Tinsman, Colin, Chen, Lu, Corbae, Paul, Li, Gang, Qiu, Y, Hor, Y S, Fu, Liang, Lu, Li
Format: Article
Language:English
Subjects:
Bismuth
Broken symmetry
Coupling (molecular)
Crystal lattices
Crystal structure
Hysteresis loops
Niobium
Physical properties
Selenium
Spin-orbit interactions
Symmetry
Topological insulators
Unconventional superconductivity
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The search for unconventional superconductivity has been focused on materials with strong spin-orbit coupling and unique crystal lattices. Doped bismuth selenide (Bi\(_2\)Se\(_3\)) is a strong candidate given the topological insulator nature of the parent compound and its triangular lattice. The coupling between the physical properties in the superconducting state and its underlying crystal symmetry is a crucial test for unconventional superconductivity. In this paper, we report direct evidence that the superconducting magnetic response couples strongly to the underlying 3-fold crystal symmetry in the recently discovered superconductor with trigonal crystal structure, niobium (Nb)-doped bismuth selenide (Bi\(_2\)Se\(_3\)). More importantly, we observed that the magnetic response is greatly enhanced along one preferred direction spontaneously breaking the rotational symmetry. Instead of a simple 3-fold crystalline symmetry, the superconducting hysteresis loop shows dominating 2-fold and 4-fold symmetry. This observation confirms the breaking of the rotational symmetry and indicates the presence of nematic order in the superconducting ground state of Nb-doped Bi\(_2\)Se\(_3\). Further, heat capacity measurements display an exponential decay in superconducting state and suggest that there is no line node in the superconducting gap. These observations provide strong evidence of odd-parity topological superconductivity.
ISSN:2331-8422
DOI:10.48550/arxiv.1603.04040