Thursday, July 16, 2026
Science

Sensitive measurements uncover dual superconducting states in atom-thin NbSe₂ and TaS₂

A new study reveals that two widely studied ultrathin superconducting materials are more sophisticated than they appear. Although they seem to behave like simple superconductors with a single energy gap, they actually contain two strongly interacting superconducting states that work together and dis...

Sensitive measurements uncover dual superconducting states in atom-thin NbSe₂ and TaS₂
Image: Phys.org
A new study reveals that two widely studied ultrathin superconducting materials are more sophisticated than they appear. Although they seem to behave like simple superconductors with a single energy gap, they actually contain two strongly interacting superconducting states that work together and disguise themselves as one. This finding resolves a long-standing mystery about how these materials behave, providing new insight into superconductivity that could help scientists design better superconducting materials for future technologies such as quantum computers, ultra-efficient electronics and advanced sensors.

Originally published at Phys.org

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