The Mott State and Superconductivity in Face-Centred Cubic Structured Cs3C60: A 133Cs-Nuclear Magnetic Resonance Study under Pressure
Over the past 20 years, fullerides have been studied as the source of high-transition-temperature ($T_{\text{c}}$) superconductivity except for copper oxides. The recent finding of the Mott insulating state right beside superconductivity in Cs 3 C 60 has suggested that magnetism helps raise $T_{\tex...
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| Veröffentlicht in: | Journal of the Physical Society of Japan 2013-01, Vol.82 (1), p.014709-014709-6 |
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| container_end_page | 014709-6 |
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| container_title | Journal of the Physical Society of Japan |
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| creator | Kawasaki, Shinji Fukui, Junji Motoyama, Takeshi Suzuki, Yuta Shibasaki, Seiji Zheng, Guo-qing |
| description | Over the past 20 years, fullerides have been studied as the source of high-transition-temperature ($T_{\text{c}}$) superconductivity except for copper oxides. The recent finding of the Mott insulating state right beside superconductivity in Cs 3 C 60 has suggested that magnetism helps raise $T_{\text{c}}$ even in fullerides as in heavy-fermion compounds, high-$T_{\text{c}}$ copper oxides, two-dimensional organic conductors, and iron pnictides. Namely, one tends to think that the link between Mott insulator and superconductivity takes place in fullerides, which can give rise to the mechanism beyond the Bardeen--Cooper--Schrieffer framework. However, the relationship between the Mott state and the superconductivity in Cs 3 C 60 is still under debate. By nuclear magnetic resonance measurements under pressure, we find that the magnetism and superconductivity in Cs 3 C 60 are competing orders. Different from previous reports, the phase separation of Cs 3 C 60 crystals into the Mott and metallic states allows us to systematically study the evolution of the ground state under pressure. Our careful experiments have found that the prevention of a magnetic order is rather essential for the superconductivity in face-centred cubic Cs 3 C 60 , which presents a basic strategy for finding still higher $T_{\text{c}}$ in this system. |
| doi_str_mv | 10.7566/JPSJ.82.014709 |
| format | Article |
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The recent finding of the Mott insulating state right beside superconductivity in Cs 3 C 60 has suggested that magnetism helps raise $T_{\text{c}}$ even in fullerides as in heavy-fermion compounds, high-$T_{\text{c}}$ copper oxides, two-dimensional organic conductors, and iron pnictides. Namely, one tends to think that the link between Mott insulator and superconductivity takes place in fullerides, which can give rise to the mechanism beyond the Bardeen--Cooper--Schrieffer framework. However, the relationship between the Mott state and the superconductivity in Cs 3 C 60 is still under debate. By nuclear magnetic resonance measurements under pressure, we find that the magnetism and superconductivity in Cs 3 C 60 are competing orders. Different from previous reports, the phase separation of Cs 3 C 60 crystals into the Mott and metallic states allows us to systematically study the evolution of the ground state under pressure. 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The recent finding of the Mott insulating state right beside superconductivity in Cs 3 C 60 has suggested that magnetism helps raise $T_{\text{c}}$ even in fullerides as in heavy-fermion compounds, high-$T_{\text{c}}$ copper oxides, two-dimensional organic conductors, and iron pnictides. Namely, one tends to think that the link between Mott insulator and superconductivity takes place in fullerides, which can give rise to the mechanism beyond the Bardeen--Cooper--Schrieffer framework. However, the relationship between the Mott state and the superconductivity in Cs 3 C 60 is still under debate. By nuclear magnetic resonance measurements under pressure, we find that the magnetism and superconductivity in Cs 3 C 60 are competing orders. Different from previous reports, the phase separation of Cs 3 C 60 crystals into the Mott and metallic states allows us to systematically study the evolution of the ground state under pressure. Our careful experiments have found that the prevention of a magnetic order is rather essential for the superconductivity in face-centred cubic Cs 3 C 60 , which presents a basic strategy for finding still higher $T_{\text{c}}$ in this system.</abstract><pub>The Physical Society of Japan</pub><doi>10.7566/JPSJ.82.014709</doi></addata></record> |
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| title | The Mott State and Superconductivity in Face-Centred Cubic Structured Cs3C60: A 133Cs-Nuclear Magnetic Resonance Study under Pressure |
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