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Main Authors: Pradhan, Suman Kalyan, Ma, Xiaoming, Wang, Jicheng, Liu, Weiqi, Dai, Yue, Chen, Wenxing, Ma, Xiaobai, Yang, Wenyun, Wu, Yu, Luo, Zhaochu, Datta, Raktim, Bera, Arnab, DuttaGupta, Samik, Yang, Jinbo, Hou, Yanglong, Liu, Chang, Wu, Rui
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.18160
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author Pradhan, Suman Kalyan
Ma, Xiaoming
Wang, Jicheng
Liu, Weiqi
Dai, Yue
Chen, Wenxing
Ma, Xiaobai
Yang, Wenyun
Wu, Yu
Luo, Zhaochu
Datta, Raktim
Bera, Arnab
DuttaGupta, Samik
Yang, Jinbo
Hou, Yanglong
Liu, Chang
Wu, Rui
author_facet Pradhan, Suman Kalyan
Ma, Xiaoming
Wang, Jicheng
Liu, Weiqi
Dai, Yue
Chen, Wenxing
Ma, Xiaobai
Yang, Wenyun
Wu, Yu
Luo, Zhaochu
Datta, Raktim
Bera, Arnab
DuttaGupta, Samik
Yang, Jinbo
Hou, Yanglong
Liu, Chang
Wu, Rui
contents Magnetic-field-driven Lifshitz transitions are typically considered zero-temperature phenomena involving Fermi-surface reconstruction without symmetry breaking. Here, we report an unconventional Lifshitz transition in TaCo2Te2 that emerges exclusively within a narrow finite-temperature window under cooperative tuning by both temperature and magnetic field. Bulk-sensitive transport and thermoelectric measurements demonstrate continuous Fermi-surface renormalization at low temperatures, where the transition is sharply triggered by a critical magnetic field. Crucially, neutron diffraction reveals the absence of structural or magnetic phase transitions, while angle-resolved photoemission spectroscopy shows no spectral anomalies in electronic structure without magnetic field. These observations constrain the mechanism to a Zeeman-driven process invisible to equilibrium probes, establishing a paradigm where Fermi-surface topology is jointly controlled by temperature and magnetic field.
format Preprint
id arxiv_https___arxiv_org_abs_2601_18160
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Magnetic field-induced non-trivial Lifshitz transition in TaCo2Te2
Pradhan, Suman Kalyan
Ma, Xiaoming
Wang, Jicheng
Liu, Weiqi
Dai, Yue
Chen, Wenxing
Ma, Xiaobai
Yang, Wenyun
Wu, Yu
Luo, Zhaochu
Datta, Raktim
Bera, Arnab
DuttaGupta, Samik
Yang, Jinbo
Hou, Yanglong
Liu, Chang
Wu, Rui
Materials Science
Magnetic-field-driven Lifshitz transitions are typically considered zero-temperature phenomena involving Fermi-surface reconstruction without symmetry breaking. Here, we report an unconventional Lifshitz transition in TaCo2Te2 that emerges exclusively within a narrow finite-temperature window under cooperative tuning by both temperature and magnetic field. Bulk-sensitive transport and thermoelectric measurements demonstrate continuous Fermi-surface renormalization at low temperatures, where the transition is sharply triggered by a critical magnetic field. Crucially, neutron diffraction reveals the absence of structural or magnetic phase transitions, while angle-resolved photoemission spectroscopy shows no spectral anomalies in electronic structure without magnetic field. These observations constrain the mechanism to a Zeeman-driven process invisible to equilibrium probes, establishing a paradigm where Fermi-surface topology is jointly controlled by temperature and magnetic field.
title Magnetic field-induced non-trivial Lifshitz transition in TaCo2Te2
topic Materials Science
url https://arxiv.org/abs/2601.18160