图书标签: 凝聚态 量子场论 物理 量子物理 Nagaosa 凝聚态物理 凝聚态场论 QFT
发表于2024-12-25
凝聚态物理学中的量子场论 pdf epub mobi txt 电子书 下载 2024
Condensed matter physics deals with a wide variety of topics, ranging from gas to liquids and solids, as well as plasma, where owing to the interplay between the motions of a tremendous number of electrons and nuclei, rich varieties of physical phenomena occur. Quantum field theory is the most.
Name: Naoto Nagaosa
The Univ. of Tokyo, Nagaosa Lab.
Research Field: Condensed matter theory
Major Accomplishments, Prizes:
1995 The 9th Japan IBM Science Award
1995 Nishinomiya Yukawa memorial prize
1998 The 2nd Superconductivity Science and Technology Award
2004 The 11th Nissan Science Award
2005 The 51th Nishina Memorial Prize
Social Activities:
Co-Editor of "Europhysics Letters", Invited numerous international conferences, Editor of "Kotaibutsuri".
Education & Professional Experience:
Mar. 1980 B. S. , Dept. of Applied Physics, University of Tokyo
Feb. 1983 Postgraduate, Dept. of Applied Physics, University of Tokyo
Feb. 1983 Research Associate, Institute for Solid State Physics (ISSP), University of Tokyo
June 1986 Ph. D. , Dept. of Applied Physics, University of Tokyo
Oct. 1986 Research Associate, Dept. of Applied Physics, University of Tokyo
June 1989 Lecturer, Dept. of Applied Physics, University of Tokyo
Sep. 1991 Associate Professor, Dept. of Applied Physics, University of Tokyo
Aug. 1998 - present Professor, Dept. of Applied Physics, University of Tokyo
Apr. 2001 - Mar. 2008 Team Leader, Theory Team, Correlated Electron Research Center (CERC), AIST
Oct. 2007 - present Team Leader, Theoretical Design Team, Cross-Correlated Materials Research Group (CMRG), Advanced Science Institute (ASI), RIKEN
Apr. 2010 - present Team Leader, Strong-Correlation Theory Research Team, Correlated Electron Research Group (CERG), Advanced Science Institute (ASI), RIKEN
Publications:
1. Y. Taguchi, Y. Oohara, H. Yoshizawa, N. Nagaosa, and Y.Tokura,
"Spin Chirality, Berry Phase, and Anomalous Hall Effect in a Frustrated Ferromagnet"
Science, 291, 2573 (2001)
2. Y. Tokura and N. Nagaosa,
"Orbital Physics in Transition-Metal Oxides"
Science, 288, 462 (2000).
3. S. Ishihara, M. Yamanaka, and N. Nagaosa,
"Orbital Liquid in La1-xSrxMnO3"
Phys. Rev. B, 56(2), 686-692 (1997).
4. N. Nagaosa and P. A. Lee,
"Kondo Effect in High-Tc Cuprates"
Phys. Rev. Lett. 79, 3755-3758 (1997).
5. A. Furusaki, and N. Nagaosa,
"Kondo Effect in a Tomonaga-Luttinger Liquid"
Phys. Rev. Lett., 72(6), 892-895 (1994).
6. T. Sugiyama, and N. Nagaosa,
"Localization in a Random Magnetic Field in 2D"
Phys. Rev. Lett., 70, 1980-1983 (1993).
7. T. Ogawa, A. Furusaki, and N. Nagaosa,
"Fermi-Edge Singularity in One-Dimensional Systems"
Phys. Rev. Lett. 68, 3638-3641 (1992).
8. N. Nagaosa, and P. A. Lee,
"Ginzburg-Landau Theory of the Spin-Charge Separated System"
Phys. Rev. B 45, 966-970 (1992).
9. N. Nagaosa, and P. A. Lee,
"Normal State Properties of the Uniform Resonating-Valence-Bond State"
Phys. Rev. Lett. 64, 2450-2453 (1990).
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首先声明我只读了三章,所以看法不见得全面。 本书作者Nagaosa(长永直人)是日本当代凝聚态理论的领军人物,功力自然不必怀疑。 在书中作者从量子力学回顾开始,非常简洁地介绍了量子场论方法在凝聚态系统中的一些常见应用。相比于Ben、Simons或是AGD或是Mahan的经典书籍,本...
评分首先声明我只读了三章,所以看法不见得全面。 本书作者Nagaosa(长永直人)是日本当代凝聚态理论的领军人物,功力自然不必怀疑。 在书中作者从量子力学回顾开始,非常简洁地介绍了量子场论方法在凝聚态系统中的一些常见应用。相比于Ben、Simons或是AGD或是Mahan的经典书籍,本...
评分首先声明我只读了三章,所以看法不见得全面。 本书作者Nagaosa(长永直人)是日本当代凝聚态理论的领军人物,功力自然不必怀疑。 在书中作者从量子力学回顾开始,非常简洁地介绍了量子场论方法在凝聚态系统中的一些常见应用。相比于Ben、Simons或是AGD或是Mahan的经典书籍,本...
评分首先声明我只读了三章,所以看法不见得全面。 本书作者Nagaosa(长永直人)是日本当代凝聚态理论的领军人物,功力自然不必怀疑。 在书中作者从量子力学回顾开始,非常简洁地介绍了量子场论方法在凝聚态系统中的一些常见应用。相比于Ben、Simons或是AGD或是Mahan的经典书籍,本...
评分首先声明我只读了三章,所以看法不见得全面。 本书作者Nagaosa(长永直人)是日本当代凝聚态理论的领军人物,功力自然不必怀疑。 在书中作者从量子力学回顾开始,非常简洁地介绍了量子场论方法在凝聚态系统中的一些常见应用。相比于Ben、Simons或是AGD或是Mahan的经典书籍,本...
凝聚态物理学中的量子场论 pdf epub mobi txt 电子书 下载 2024