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Imaging the Meissner effect in pressurized bilayer nickelate with integrated multi-parameter quantum sensor

arXiv
Authors: Junyan Wen, Yue Xu, Gang Wang, Ze-Xu He, Yang Chen, Ningning Wang, Tenglong Lu, Xiaoli Ma, Feng Jin, Liucheng Chen, Miao Liu, Jing-Wei Fan, Xiaobing Liu, Xin-Yu Pan, Gang-Qin Liu, Jinguang Cheng, Xiaohui Yu

Year

2024

Paper ID

38157

Status

Preprint

Abstract Read

~2 min

Abstract Words

173

Citations

N/A

Abstract

Recent reports on the signatures of high-temperature superconductivity with a critical temperature Tc close to 80 K have triggered great research interest and extensive follow-up studies. Although the zero resistance has been successfully achieved under improved hydrostatic pressure conditions, the Meissner effect of mathrm{La3Ni2O7-δ} under high pressure remains controversial. Here, using shallow nitrogen-vacancy centers implanted on the culet of diamond anvils as in-situ quantum sensors, we observe compelling evidence for the Meissner effect in polycrystalline bilayer nickelate samples: the magnetic field expulsion during both field cooling and field warming processes. In particular, we explore the multiparameter measurement capacity of the diamond quantum sensors to extract the weak demagnetization signal of mathrm{La3Ni2O7-δ}. The correlated measurements of Raman spectra and magnetic imaging indicate an incomplete structural transformation related to the displacement of oxygen ions emerging in the non-superconducting region. Our work clarifies the controversy about the Meissner effect of mathrm{La3Ni2O7-δ} and contributes to the development of quantum sensing of weak signals under high-pressure conditions.

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  • Recent reports on the signatures of high-temperature superconductivity with a critical temperature Tc close to 80 K have triggered great research interest and extensive...

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