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Pregled bibliografske jedinice broj: 950360

Quantum spin liquids unveil the genuine Mott state

Pustogow, Andrej; Bories, M.; Löhle, Anja; Rösslhuber, Roland; Zhukova, Elena; Gorshunov, Boris; Tomić, Silvia; Schlueter, John A.; Hübner, R.; Hiramatsu, T. et al.
Quantum spin liquids unveil the genuine Mott state // Nature materials, 17 (2018), 8; 10.1038/s41563-018-0140-3, 6 doi:10.1038/s41563-018-0140-3 (međunarodna recenzija, članak, znanstveni)

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Naslov
Quantum spin liquids unveil the genuine Mott state

Autori
Pustogow, Andrej ; Bories, M. ; Löhle, Anja ; Rösslhuber, Roland ; Zhukova, Elena ; Gorshunov, Boris ; Tomić, Silvia ; Schlueter, John A. ; Hübner, R. ; Hiramatsu, T. ; Yoshida, Y. ; Saito, Gunzi ; Kato, Reizo ; Lee, T.-H. ; Dobrosavljević, V. ; Fratini, S. ; Dressel Martin

Izvornik
Nature materials (1476-1122) 17 (2018), 8; 10.1038/s41563-018-0140-3, 6

Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni

Ključne riječi
strongly correlated systems ; mott insulators ; quantum spin liquid ; optical spectroscopy ; density functional theory

Sažetak
The localization of charge carriers by electronic repulsion was suggested by Mott in the 1930s to explain the insulating state observed in supposedly metallic NiO. The Mott metal– insulator transition has been subject of intense investigations ever since1–3—not least for its relation to high-temperature superconductivity4. A detailed comparison to real materials, however, is lacking because the pristine Mott state is commonly obscured by antiferromagnetism and a complicated band structure. Here we study organic quantum spin liquids, prototype realizations of the single-band Hubbard model in the absence of magnetic order. Mapping the Hubbard bands by optical spectroscopy provides an absolute measure of the interaction strength and bandwidth—the crucial parameters that enter calculations. In this way, we advance beyond conventional temperature–pressure plots and quantitatively compose a generic phase diagram for all genuine Mott insulators based on the absolute strength of the electronic correlations. We also identify metallic quantum fluctuations as a precursor of the Mott insulator–metal transition, previously predicted but never observed. Our results suggest that all relevant phenomena in the phase diagram scale with the Coulomb repulsion U, which provides a direct link to unconventional superconductivity in cuprates and other strongly correlated materials.

Izvorni jezik
Engleski

Znanstvena područja
Fizika



POVEZANOST RADA

Projekti:
HRZZ-IP-2013-11-1011 - Jako korelirani elektroni u slojnim organskim materijalima i manganitima: niskofrekventna pobuđenja i nelinearna dinamika (SCEinLOM) (Tomić, Silvia, HRZZ - 2013-11) ( CroRIS)

Ustanove:
Institut za fiziku, Zagreb

Profili:

Avatar Url Silvia Tomić (autor)

Poveznice na cjeloviti tekst rada:

Pristup cjelovitom tekstu rada doi doi.org

Citiraj ovu publikaciju:

Pustogow, Andrej; Bories, M.; Löhle, Anja; Rösslhuber, Roland; Zhukova, Elena; Gorshunov, Boris; Tomić, Silvia; Schlueter, John A.; Hübner, R.; Hiramatsu, T. et al.
Quantum spin liquids unveil the genuine Mott state // Nature materials, 17 (2018), 8; 10.1038/s41563-018-0140-3, 6 doi:10.1038/s41563-018-0140-3 (međunarodna recenzija, članak, znanstveni)
Pustogow, A., Bories, M., Löhle, A., Rösslhuber, R., Zhukova, E., Gorshunov, B., Tomić, S., Schlueter, J., Hübner, R. & Hiramatsu, T. (2018) Quantum spin liquids unveil the genuine Mott state. Nature materials, 17 (8), 10.1038/s41563-018-0140-3, 6 doi:10.1038/s41563-018-0140-3.
@article{article, author = {Pustogow, Andrej and Bories, M. and L\"{o}hle, Anja and R\"{o}sslhuber, Roland and Zhukova, Elena and Gorshunov, Boris and Tomi\'{c}, Silvia and Schlueter, John A. and H\"{u}bner, R. and Hiramatsu, T. and Yoshida, Y. and Saito, Gunzi and Kato, Reizo and Lee, T.-H. and Dobrosavljevi\'{c}, V. and Fratini, S.}, year = {2018}, pages = {6}, DOI = {10.1038/s41563-018-0140-3}, chapter = {10.1038/s41563-018-0140-3}, keywords = {strongly correlated systems, mott insulators, quantum spin liquid, optical spectroscopy, density functional theory}, journal = {Nature materials}, doi = {10.1038/s41563-018-0140-3}, volume = {17}, number = {8}, issn = {1476-1122}, title = {Quantum spin liquids unveil the genuine Mott state}, keyword = {strongly correlated systems, mott insulators, quantum spin liquid, optical spectroscopy, density functional theory}, chapternumber = {10.1038/s41563-018-0140-3} }
@article{article, author = {Pustogow, Andrej and Bories, M. and L\"{o}hle, Anja and R\"{o}sslhuber, Roland and Zhukova, Elena and Gorshunov, Boris and Tomi\'{c}, Silvia and Schlueter, John A. and H\"{u}bner, R. and Hiramatsu, T. and Yoshida, Y. and Saito, Gunzi and Kato, Reizo and Lee, T.-H. and Dobrosavljevi\'{c}, V. and Fratini, S.}, year = {2018}, pages = {6}, DOI = {10.1038/s41563-018-0140-3}, chapter = {10.1038/s41563-018-0140-3}, keywords = {strongly correlated systems, mott insulators, quantum spin liquid, optical spectroscopy, density functional theory}, journal = {Nature materials}, doi = {10.1038/s41563-018-0140-3}, volume = {17}, number = {8}, issn = {1476-1122}, title = {Quantum spin liquids unveil the genuine Mott state}, keyword = {strongly correlated systems, mott insulators, quantum spin liquid, optical spectroscopy, density functional theory}, chapternumber = {10.1038/s41563-018-0140-3} }

Časopis indeksira:


  • Current Contents Connect (CCC)
  • Web of Science Core Collection (WoSCC)
    • Science Citation Index Expanded (SCI-EXP)
    • SCI-EXP, SSCI i/ili A&HCI
  • Scopus
  • MEDLINE
  • Nature Index

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