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मुख्य लेखकों:	Bandyopadhyay, Abhisek, Lee, S., Adroja, D. T., Lees, M. R., Stenning, G. B. G., Aich, P., Tortora, Luca, Meneghini, C., Cibin, G., Berlie, Adam, Saha, R. A., Takegami, D., Melendez-Sans, A., Poelchen, G., Yoshimura, M., Tsuei, K. D., Hu, Z., Chan, Ting-Shan, Chattopadhyay, S., Thakur, G. S., Choi, Kwang-Yong
स्वरूप:	Preprint
प्रकाशित:	2024
विषय:	Strongly Correlated Electrons
ऑनलाइन पहुंच:	https://arxiv.org/abs/2406.17129
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_version_	1866917915829207040
author	Bandyopadhyay, Abhisek Lee, S. Adroja, D. T. Lees, M. R. Stenning, G. B. G. Aich, P. Tortora, Luca Meneghini, C. Cibin, G. Berlie, Adam Saha, R. A. Takegami, D. Melendez-Sans, A. Poelchen, G. Yoshimura, M. Tsuei, K. D. Hu, Z. Chan, Ting-Shan Chattopadhyay, S. Thakur, G. S. Choi, Kwang-Yong
author_facet	Bandyopadhyay, Abhisek Lee, S. Adroja, D. T. Lees, M. R. Stenning, G. B. G. Aich, P. Tortora, Luca Meneghini, C. Cibin, G. Berlie, Adam Saha, R. A. Takegami, D. Melendez-Sans, A. Poelchen, G. Yoshimura, M. Tsuei, K. D. Hu, Z. Chan, Ting-Shan Chattopadhyay, S. Thakur, G. S. Choi, Kwang-Yong
contents	We present an experimental investigation of the magnetic ground state in Ba$_4$NbIr$_3$O$_{12}$, a fractional valent trimer iridate. X-ray absorption and photoemission spectroscopy show that the Ir valence lies between 3+ and 4+ while Nb is pentavalent. Combined dc/ac magnetization, specific heat, and muon spin rotation/relaxation ($μ$SR) measurements reveal no magnetic phase transition down to 0.05~K. Despite a significant Weiss temperature ($Θ_{\mathrm{W}} \sim -15$ to $-25$~K) indicating antiferromagnetic correlations, a quantum spin-liquid (QSL) phase emerges and persists down to 0.1~K. This state likely arises from geometric frustration in the edge-sharing equilateral triangle Ir network. Our $μ$SR analysis reveals a two-component depolarization, arising from the coexistence of rapidly (90\%) and slowly (10\%) fluctuating Ir moments. Powder x-ray diffraction and Ir-L$_3$edge x-ray absorption fine structure spectroscopy identify ~8-10\% Nb/Ir site-exchange, reducing frustration within part of the Ir network, and likely leading to the faster muon spin relaxation, while the structurally ordered Ir ions remain highly geometrically frustrated, giving rise to the rapidly spin-fluctuating QSL ground state. At low temperatures, the magnetic specific heat varies as $γT + αT^2$, indicating gapless spinon excitations, and possible Dirac QSL features with linear spinon dispersion, respectively.
format	Preprint
id	arxiv_https___arxiv_org_abs_2406_17129
institution	arXiv
publishDate	2024
record_format	arxiv
spellingShingle	Gapless dynamic magnetic ground state in the charge-gapped trimer iridate Ba$_4$NbIr$_3$O$_{12}$ Bandyopadhyay, Abhisek Lee, S. Adroja, D. T. Lees, M. R. Stenning, G. B. G. Aich, P. Tortora, Luca Meneghini, C. Cibin, G. Berlie, Adam Saha, R. A. Takegami, D. Melendez-Sans, A. Poelchen, G. Yoshimura, M. Tsuei, K. D. Hu, Z. Chan, Ting-Shan Chattopadhyay, S. Thakur, G. S. Choi, Kwang-Yong Strongly Correlated Electrons We present an experimental investigation of the magnetic ground state in Ba$_4$NbIr$_3$O$_{12}$, a fractional valent trimer iridate. X-ray absorption and photoemission spectroscopy show that the Ir valence lies between 3+ and 4+ while Nb is pentavalent. Combined dc/ac magnetization, specific heat, and muon spin rotation/relaxation ($μ$SR) measurements reveal no magnetic phase transition down to 0.05~K. Despite a significant Weiss temperature ($Θ_{\mathrm{W}} \sim -15$ to $-25$~K) indicating antiferromagnetic correlations, a quantum spin-liquid (QSL) phase emerges and persists down to 0.1~K. This state likely arises from geometric frustration in the edge-sharing equilateral triangle Ir network. Our $μ$SR analysis reveals a two-component depolarization, arising from the coexistence of rapidly (90\%) and slowly (10\%) fluctuating Ir moments. Powder x-ray diffraction and Ir-L$_3$edge x-ray absorption fine structure spectroscopy identify ~8-10\% Nb/Ir site-exchange, reducing frustration within part of the Ir network, and likely leading to the faster muon spin relaxation, while the structurally ordered Ir ions remain highly geometrically frustrated, giving rise to the rapidly spin-fluctuating QSL ground state. At low temperatures, the magnetic specific heat varies as $γT + αT^2$, indicating gapless spinon excitations, and possible Dirac QSL features with linear spinon dispersion, respectively.
title	Gapless dynamic magnetic ground state in the charge-gapped trimer iridate Ba$_4$NbIr$_3$O$_{12}$
topic	Strongly Correlated Electrons
url	https://arxiv.org/abs/2406.17129

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