Translational Symmetry Breaking and Gapping of Heavy-Quasiparticle Pocket in URu 2 Si 2

Rikiya Yoshida; Koji Tsubota; Toshihiko Ishiga; Masanori Sunagawa; Jyunki Sonoyama; Dai Aoki; Jacques Flouquet; Takanori Wakita; Yuji Muraoka; Takayoshi Yokoya

doi:10.1038/srep02750

Translational Symmetry Breaking and Gapping of Heavy-Quasiparticle Pocket in URu 2 Si 2

Rikiya Yoshida, Koji Tsubota, Toshihiko Ishiga, Masanori Sunagawa, Jyunki Sonoyama, Dai Aoki, Jacques Flouquet, Takanori Wakita, Yuji Muraoka, Takayoshi Yokoya

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Abstract

URu 2 Si 2 is a uranium compound that exhibits a so-called 'hidden-order' transition at ∼17.5â€...K. However, the order parameter of this second-order transition as well as many of its microscopic properties remain unclarified despite considerable research. One of the key questions in this regard concerns the type of spontaneous symmetry breaking occurring at the transition; although rotational symmetry breaking has been detected, it is not clear whether another type of symmetry breaking also occurs. Another key question concerns the property of Fermi-surface gapping in the momentum space. Here we address these key questions by a momentum-dependent observation of electronic states at the transition employing ultrahigh-resolution three-dimensional angle-resolved photoemission spectroscopy. Our results provide compelling evidence of the spontaneous breaking of the lattice's translational symmetry and particle-hole asymmetric gapping of a heavy quasiparticle pocket at the transition.

Original language	English
Article number	2750
Journal	Scientific reports
Volume	3
DOIs	https://doi.org/10.1038/srep02750
Publication status	Published - 2013

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@article{821716e64d49499db134b9b811f4be8e,

title = "Translational Symmetry Breaking and Gapping of Heavy-Quasiparticle Pocket in URu 2 Si 2",

abstract = "URu 2 Si 2 is a uranium compound that exhibits a so-called 'hidden-order' transition at ∼17.5{\^a}€...K. However, the order parameter of this second-order transition as well as many of its microscopic properties remain unclarified despite considerable research. One of the key questions in this regard concerns the type of spontaneous symmetry breaking occurring at the transition; although rotational symmetry breaking has been detected, it is not clear whether another type of symmetry breaking also occurs. Another key question concerns the property of Fermi-surface gapping in the momentum space. Here we address these key questions by a momentum-dependent observation of electronic states at the transition employing ultrahigh-resolution three-dimensional angle-resolved photoemission spectroscopy. Our results provide compelling evidence of the spontaneous breaking of the lattice's translational symmetry and particle-hole asymmetric gapping of a heavy quasiparticle pocket at the transition.",

author = "Rikiya Yoshida and Koji Tsubota and Toshihiko Ishiga and Masanori Sunagawa and Jyunki Sonoyama and Dai Aoki and Jacques Flouquet and Takanori Wakita and Yuji Muraoka and Takayoshi Yokoya",

note = "Funding Information: We thank T. Kim, K. Ott, A. Varykhalov, and E. Rienks for assistance with the measurements. We also thank Y. Haga, Y. Onuki, K. Machida, and S. Hoshino for the valuable discussions. The ARPES measurements were performed at the {\textquoteleft}One-Cubed{\textquoteright} ARPES station at BESSY II under proposal numbers 2011_2_110195 and 2012_2_120346. This work was supported by a Grant-in-Aid for Scientific Research on Innovative Areas {\textquoteleft}Heavy Electrons{\textquoteright} (20102003) from the Ministry of Education, Culture, Sports, Science and Technology, a Grant-in-Aid for Scientific Research from the Japan Society for the Promotion of Science (JSPS), and ERC starting grant (NewHeavyFermion). R.Y. also acknowledges the financial support from the Research Fellowships of JSPS for Young Scientists.",

year = "2013",

doi = "10.1038/srep02750",

language = "English",

volume = "3",

journal = "Scientific reports",

issn = "2045-2322",

publisher = "Nature Publishing Group",

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T1 - Translational Symmetry Breaking and Gapping of Heavy-Quasiparticle Pocket in URu 2 Si 2

AU - Yoshida, Rikiya

AU - Tsubota, Koji

AU - Ishiga, Toshihiko

AU - Sunagawa, Masanori

AU - Sonoyama, Jyunki

AU - Aoki, Dai

AU - Flouquet, Jacques

AU - Wakita, Takanori

AU - Muraoka, Yuji

AU - Yokoya, Takayoshi

N1 - Funding Information: We thank T. Kim, K. Ott, A. Varykhalov, and E. Rienks for assistance with the measurements. We also thank Y. Haga, Y. Onuki, K. Machida, and S. Hoshino for the valuable discussions. The ARPES measurements were performed at the ‘One-Cubed’ ARPES station at BESSY II under proposal numbers 2011_2_110195 and 2012_2_120346. This work was supported by a Grant-in-Aid for Scientific Research on Innovative Areas ‘Heavy Electrons’ (20102003) from the Ministry of Education, Culture, Sports, Science and Technology, a Grant-in-Aid for Scientific Research from the Japan Society for the Promotion of Science (JSPS), and ERC starting grant (NewHeavyFermion). R.Y. also acknowledges the financial support from the Research Fellowships of JSPS for Young Scientists.

PY - 2013

Y1 - 2013

N2 - URu 2 Si 2 is a uranium compound that exhibits a so-called 'hidden-order' transition at ∼17.5â€...K. However, the order parameter of this second-order transition as well as many of its microscopic properties remain unclarified despite considerable research. One of the key questions in this regard concerns the type of spontaneous symmetry breaking occurring at the transition; although rotational symmetry breaking has been detected, it is not clear whether another type of symmetry breaking also occurs. Another key question concerns the property of Fermi-surface gapping in the momentum space. Here we address these key questions by a momentum-dependent observation of electronic states at the transition employing ultrahigh-resolution three-dimensional angle-resolved photoemission spectroscopy. Our results provide compelling evidence of the spontaneous breaking of the lattice's translational symmetry and particle-hole asymmetric gapping of a heavy quasiparticle pocket at the transition.

AB - URu 2 Si 2 is a uranium compound that exhibits a so-called 'hidden-order' transition at ∼17.5â€...K. However, the order parameter of this second-order transition as well as many of its microscopic properties remain unclarified despite considerable research. One of the key questions in this regard concerns the type of spontaneous symmetry breaking occurring at the transition; although rotational symmetry breaking has been detected, it is not clear whether another type of symmetry breaking also occurs. Another key question concerns the property of Fermi-surface gapping in the momentum space. Here we address these key questions by a momentum-dependent observation of electronic states at the transition employing ultrahigh-resolution three-dimensional angle-resolved photoemission spectroscopy. Our results provide compelling evidence of the spontaneous breaking of the lattice's translational symmetry and particle-hole asymmetric gapping of a heavy quasiparticle pocket at the transition.

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Translational Symmetry Breaking and Gapping of Heavy-Quasiparticle Pocket in URu 2 Si 2

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