Nonadiabatic Transition Probabilities in the Presence of Strong Dissipation
スポンサーリンク
概要
- 論文の詳細を見る
Strong dissipative effects on the nonadiabatic transition for the two level system are studied. We focus on a strong dissipation for the diabatic states, and derive the exact transition probability making use of the effective master equation. We consider the case where the external field is swept from not only a negative large value but also from the resonant field, and the exact transition probabilities in these cases are derived.
- 理論物理学刊行会の論文
- 2002-06-28
著者
-
Saito Keiji
Department Of Applied Physics School Of Engineering University Of Tokyo
-
Saito Keiji
Department Of Applied Physics Graduate School Of Engineering University Of Tokyo
-
SAITO Keiji
Department of Applied Physics, School of Engineering, University of Tokyo
関連論文
- Simulational Study on Dimensionality Dependence of Heat Conduction : Fluids, Plasmas, and Electric Discharges
- Parity Effect in the Resonant Tunneling
- Noise Effect on the Nonadiabatic Transition in the System of Fe_8
- Quantum Dynamics and Dissipation Effects in the Resonant Tunneling of Molecular Magnets
- Magnetic Foehn Effect in Adiabatic Transition
- Frequency Dependence of Quantum Localization in a Periodically Driven System
- Spectral Statistics of the Bootstrapped Density of States in the d-Dimensional Integrable Billiard System : General Physics
- On the Failure and the Modification of Semiclassical Trace Formula in the Quantum Standard Map
- Asymmetric Heat Flow in Mesoscopic Magnetic System (Condensed Matter: Structure, Mechanical and Thermal Properties)
- Nonadiabatic Transition Probabilities in the Presence of Strong Dissipation
- Enhancement of the Thermal Conductivity in Gapped Quantum Spin Chains
- Appointment of Visit(Perspectives of Nonequilibrium Statistical Physics-The Memory of Professor Shuichi Tasaki-)
- Parity Effect in the Resonant Tunneling
- Frequency Dependence of Quantum Localization in a Periodically Driven System
- Magnetic Foehn Effect in Adiabatic Transition
- Nonexponential Relaxation of Magnetization at the Resonant Tunneling Point under a Fluctuating Random Noise
- Self-diffusion of a Cation through Cation Exchange Membrane and Membrane Permeability