Fingerprint Fingerprint is based on mining the text of the person's scientific documents to create an index of weighted terms, which defines the key subjects of each individual researcher.

  • 1 Similar Profiles
Superconductivity Engineering & Materials Science
superconductivity Physics & Astronomy
Superconducting materials Engineering & Materials Science
Oxygen Engineering & Materials Science
Temperature Engineering & Materials Science
oxygen Physics & Astronomy
Doping (additives) Engineering & Materials Science
Substitution reactions Engineering & Materials Science

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Research Output 1987 2017

  • 3326 Citations
  • 34 h-Index
  • 155 Article
  • 6 Patent
  • 2 Review article
  • 1 Comment/debate

Magnetic susceptibility of optimally doped HgBa2CuO4+δ

Itoh, Y., Machi, T. & Yamamoto, A. 2017 Dec 13 In : Physical Review B. 96, 23, 235118

Research output: Research - peer-reviewArticle

Magnetic susceptibility
Powders
Superconducting materials
Charge transfer
Electrons

Ultraslow fluctuations in the pseudogap states of HgBa2CaCu2 O6+δ

Itoh, Y., Machi, T. & Yamamoto, A. 2017 Mar 6 In : Physical Review B - Condensed Matter and Materials Physics. 95, 9, 094501

Research output: Research - peer-reviewArticle

Exponential functions
Cuprate superconductors
exponential functions
nuclear spin
cuprates

Coexistence of monochalocogen and dichalocogen ions in BiSe2 and BiS2 crystals prepared at high pressure

Yamamoto, A., Hashizume, D., Bahramy, M. S. & Tokura, Y. 2015 Apr 20 In : Inorganic Chemistry. 54, 8, p. 4114-4119 6 p.

Research output: Research - peer-reviewArticle

crystals
ions
Ions
Crystals
substitutes
7 Citations

High pressure effects revisited for the cuprate superconductor family with highest critical temperature

Yamamoto, A., Takeshita, N., Terakura, C. & Tokura, Y. 2015 Dec 1 In : Nature Communications. 6, 8990

Research output: Research - peer-reviewArticle

pressure effects
cuprates
critical temperature
electrical resistivity
High pressure effects
8 Citations

Thermal conductivity across the metal-insulator transition in the single-crystalline hyperkagome antiferromagnet Na3+xIr3 O8

Fauqué, B., Xu, X., Bangura, A. F., Hunter, E. C., Yamamoto, A., Behnia, K., Carrington, A., Takagi, H., Hussey, N. E. & Perry, R. S. 2015 Feb 25 In : Physical Review B - Condensed Matter and Materials Physics. 91, 7, 075129

Research output: Research - peer-reviewArticle

Metal insulator transition
Thermal conductivity
Scattering
Crystalline materials
Temperature