A microscopic two–band model for the electron-hole asymmetry in high-'T IND. c' superconductors and reentering behavior (2016)
- Authors:
- Autor USP: PEDRA, WALTER ALBERTO DE SIQUEIRA - IF
- Unidade: IF
- Subjects: MECÂNICA QUÂNTICA; SUPERCONDUTIVIDADE
- Language: Inglês
- Imprenta:
-
ABNT
BRU, J.-B. e DÖMEL, A.-S. e DE SIQUEIRA PEDRA, Walter. A microscopic two–band model for the electron-hole asymmetry in high-'T IND. c' superconductors and reentering behavior. . São Paulo: Instituto de Física, Universidade de São Paulo. Disponível em: https://arxiv.org/pdf/1610.07415.pdf. Acesso em: 06 out. 2024. , 2016 -
APA
Bru, J. -B., Dömel, A. -S., & De Siqueira Pedra, W. (2016). A microscopic two–band model for the electron-hole asymmetry in high-'T IND. c' superconductors and reentering behavior. São Paulo: Instituto de Física, Universidade de São Paulo. Recuperado de https://arxiv.org/pdf/1610.07415.pdf -
NLM
Bru J-B, Dömel A-S, De Siqueira Pedra W. A microscopic two–band model for the electron-hole asymmetry in high-'T IND. c' superconductors and reentering behavior [Internet]. 2016 ;[citado 2024 out. 06 ] Available from: https://arxiv.org/pdf/1610.07415.pdf -
Vancouver
Bru J-B, Dömel A-S, De Siqueira Pedra W. A microscopic two–band model for the electron-hole asymmetry in high-'T IND. c' superconductors and reentering behavior [Internet]. 2016 ;[citado 2024 out. 06 ] Available from: https://arxiv.org/pdf/1610.07415.pdf - Characterization of the quasi-stationary state of an impurity driven by monochromatic light II - microscopic foundations
- Remarks on the Γ–regularization of non–convex and non–semi–continuous functions on topological vector spaces
- Heat production of noninteracting fermions subjected to electric fields
- d-Wave pairing driven by bipolaric modes related to giant electron–phonon anomalies in high-'T IND. c' superconductors
- Accuracy of classical conductivity theory at atomic scales for free fermions in disordered media
- Classical dynamics from self-consistency equations in quantum mechanics
- Heat production of Noninteracting fermions subjected to electric fields
- Thermodynamic game and the kac limit in quantum lattices
- Microscopic conductivity of lattice fermions at equilibrium – part I: non–interacting particles
- Heat production of non–interacting fermions subjected to electric fields
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