Thermal Conductivity of Strongly Correlated Electron Systems
スポンサーリンク
概要
- 論文の詳細を見る
Thermal conductivity via electron and spin degrees of freedom has been a valuable tool to study superconducting properties of high-Tc cuprates and quantum fluctuation of one-dimensional spin liquids. It turned out that presence of metallic quasiparticles is necessary for the superconducting phase transition for the high-Tc cuprates. It is also demonstrated that spin excitations carry a large amount of heat in the one-dimensional quantum magnet, indicating their excellent spatial coherence like phonons and electrons in metals. The thermal conductivity measurement will be useful more generally in studying exotic properties of strongly-correlated electron systems.
- 日本熱測定学会の論文
日本熱測定学会 | 論文
- CALPHAD法援用による合金のアモルファス形成能評価
- 薬物と血清アルブミンの相互作用
- DCNQI-Cu系リエントラント金属-絶縁体転移の熱的研究
- サーモトロピック液晶とリオトロピック液晶--統一的視点の可能性
- 大学における熱測定教育の意義と実験教材 (特集 熱力学・熱測定と教育)