High temperature singlet-based magnetism from Hund’s rule correlations

Lin Miao; Rourav Basak; Sheng Ran; Yishuai Xu; Erica Kotta; Haowei He; Jonathan D. Denlinger; Yi De Chuang; Y. Zhao; Z. Xu; J. W. Lynn; J. R. Jeffries; S. R. Saha; Ioannis Giannakis; Pegor Aynajian; Chang Jong Kang; Yilin Wang; Gabriel Kotliar; Nicholas P. Butch; L. Andrew Wray

doi:10.1038/s41467-019-08497-3

High temperature singlet-based magnetism from Hund’s rule correlations

Lin Miao, Rourav Basak, Sheng Ran, Yishuai Xu, Erica Kotta, Haowei He, Jonathan D. Denlinger, Yi De Chuang, Y. Zhao, Z. Xu, J. W. Lynn, J. R. Jeffries, S. R. Saha, Ioannis Giannakis, Pegor Aynajian, Chang Jong Kang, Yilin Wang, Gabriel Kotliar, Nicholas P. Butch, L. Andrew Wray

Department of Physics

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

Uranium compounds can manifest a wide range of fascinating many-body phenomena, and are often thought to be poised at a crossover between localized and itinerant regimes for 5f electrons. The antiferromagnetic dipnictide USb ₂ has been of recent interest due to the discovery of rich proximate phase diagrams and unusual quantum coherence phenomena. Here, linear-dichroic X-ray absorption and elastic neutron scattering are used to characterize electronic symmetries on uranium in USb ₂ and isostructural UBi ₂ . Of these two materials, only USb ₂ is found to enable strong Hund’s rule alignment of local magnetic degrees of freedom, and to undergo distinctive changes in local atomic multiplet symmetry across the magnetic phase transition. Theoretical analysis reveals that these and other anomalous properties of the material may be understood by attributing it as the first known high temperature realization of a singlet ground state magnet, in which magnetism occurs through a process that resembles exciton condensation.

Original language	English
Article number	644
Journal	Nature communications
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41467-019-08497-3
State	Published - Dec 1 2019

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Miao, L., Basak, R., Ran, S., Xu, Y., Kotta, E., He, H., Denlinger, J. D., Chuang, Y. D., Zhao, Y., Xu, Z., Lynn, J. W., Jeffries, J. R., Saha, S. R., Giannakis, I., Aynajian, P., Kang, C. J., Wang, Y., Kotliar, G., Butch, N. P., & Wray, L. A. (2019). High temperature singlet-based magnetism from Hund’s rule correlations. Nature communications, 10(1), Article 644. https://doi.org/10.1038/s41467-019-08497-3

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title = "High temperature singlet-based magnetism from Hund{\textquoteright}s rule correlations",

abstract = " Uranium compounds can manifest a wide range of fascinating many-body phenomena, and are often thought to be poised at a crossover between localized and itinerant regimes for 5f electrons. The antiferromagnetic dipnictide USb 2 has been of recent interest due to the discovery of rich proximate phase diagrams and unusual quantum coherence phenomena. Here, linear-dichroic X-ray absorption and elastic neutron scattering are used to characterize electronic symmetries on uranium in USb 2 and isostructural UBi 2 . Of these two materials, only USb 2 is found to enable strong Hund{\textquoteright}s rule alignment of local magnetic degrees of freedom, and to undergo distinctive changes in local atomic multiplet symmetry across the magnetic phase transition. Theoretical analysis reveals that these and other anomalous properties of the material may be understood by attributing it as the first known high temperature realization of a singlet ground state magnet, in which magnetism occurs through a process that resembles exciton condensation.",

author = "Lin Miao and Rourav Basak and Sheng Ran and Yishuai Xu and Erica Kotta and Haowei He and Denlinger, {Jonathan D.} and Chuang, {Yi De} and Y. Zhao and Z. Xu and Lynn, {J. W.} and Jeffries, {J. R.} and Saha, {S. R.} and Ioannis Giannakis and Pegor Aynajian and Kang, {Chang Jong} and Yilin Wang and Gabriel Kotliar and Butch, {Nicholas P.} and Wray, {L. Andrew}",

note = "Publisher Copyright: {\textcopyright} 2019, The Author(s).",

year = "2019",

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doi = "10.1038/s41467-019-08497-3",

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Miao, L, Basak, R, Ran, S, Xu, Y, Kotta, E, He, H, Denlinger, JD, Chuang, YD, Zhao, Y, Xu, Z, Lynn, JW, Jeffries, JR, Saha, SR, Giannakis, I, Aynajian, P, Kang, CJ, Wang, Y, Kotliar, G, Butch, NP & Wray, LA 2019, 'High temperature singlet-based magnetism from Hund’s rule correlations', Nature communications, vol. 10, no. 1, 644. https://doi.org/10.1038/s41467-019-08497-3

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AU - Miao, Lin

AU - Basak, Rourav

AU - Ran, Sheng

AU - Xu, Yishuai

AU - Kotta, Erica

AU - He, Haowei

AU - Denlinger, Jonathan D.

AU - Chuang, Yi De

AU - Zhao, Y.

AU - Xu, Z.

AU - Lynn, J. W.

AU - Jeffries, J. R.

AU - Saha, S. R.

AU - Giannakis, Ioannis

AU - Aynajian, Pegor

AU - Kang, Chang Jong

AU - Wang, Yilin

AU - Kotliar, Gabriel

AU - Butch, Nicholas P.

AU - Wray, L. Andrew

PY - 2019/12/1

Y1 - 2019/12/1

N2 - Uranium compounds can manifest a wide range of fascinating many-body phenomena, and are often thought to be poised at a crossover between localized and itinerant regimes for 5f electrons. The antiferromagnetic dipnictide USb 2 has been of recent interest due to the discovery of rich proximate phase diagrams and unusual quantum coherence phenomena. Here, linear-dichroic X-ray absorption and elastic neutron scattering are used to characterize electronic symmetries on uranium in USb 2 and isostructural UBi 2 . Of these two materials, only USb 2 is found to enable strong Hund’s rule alignment of local magnetic degrees of freedom, and to undergo distinctive changes in local atomic multiplet symmetry across the magnetic phase transition. Theoretical analysis reveals that these and other anomalous properties of the material may be understood by attributing it as the first known high temperature realization of a singlet ground state magnet, in which magnetism occurs through a process that resembles exciton condensation.

AB - Uranium compounds can manifest a wide range of fascinating many-body phenomena, and are often thought to be poised at a crossover between localized and itinerant regimes for 5f electrons. The antiferromagnetic dipnictide USb 2 has been of recent interest due to the discovery of rich proximate phase diagrams and unusual quantum coherence phenomena. Here, linear-dichroic X-ray absorption and elastic neutron scattering are used to characterize electronic symmetries on uranium in USb 2 and isostructural UBi 2 . Of these two materials, only USb 2 is found to enable strong Hund’s rule alignment of local magnetic degrees of freedom, and to undergo distinctive changes in local atomic multiplet symmetry across the magnetic phase transition. Theoretical analysis reveals that these and other anomalous properties of the material may be understood by attributing it as the first known high temperature realization of a singlet ground state magnet, in which magnetism occurs through a process that resembles exciton condensation.

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High temperature singlet-based magnetism from Hund’s rule correlations

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