Optical Response of a Randomly Modulated Two-Level Atom
スポンサーリンク
概要
- 論文の詳細を見る
In order to investigate the effect of perturbation caused by the interactionof a two-level atom with its environment on the coherency of light scattered bythe atom when it is irradiated by an intense radiation, Mollow's theory is gene-ralized to include a random modulation of the resonance frequency as well asfluctuations of the incident field. Expressions for the power spectrum, the totalintensity, the coherent scattering intensity and the broad Rayleigh scatteringintensity are derived. Some general aspects of the problem are discussed.
- 社団法人日本物理学会の論文
- 1984-03-15
著者
-
Kubo Ryogo
Department Of Physics Faculty Of Science University Of Tokyo
-
Chikama Terumi
Department Of Physics Faculty Of Science University Of Tokyo
-
Chikama Terumi
Department Of Physics Faculty Of Science University Of Tokyo:fujitsu Laboratories Ltd.
-
Kubo Ryogo
Department Of Physics Faculty Of Science And Technology Keio University
-
SAIKAWA Kazuhiko
Department of Physics,Faculty of Science,Shinshu University
-
Saikawa Kazuhiko
Department Of Physics Faculty Of Science Shinshu University
-
Chikawa Terumi
Department of Physics,Faculty of Science,University of Tokyo
関連論文
- Pre- and Post-Dispersion Compensation in Long-Haul WDM Transmission System
- High Alumina Co-Doped Silica EDFA and Its Gain-Equalization in Long-Haul WDM Transmission System
- Gain Equalizer in Long-Haul WDM Transmission System(Special Issue on High-Capacity WDM/TDM Networks)
- Long-Time Spin Relaxation in Zero-Field
- Performance Analysis of a Three-Channel Control Architecture for Bilateral Teleoperation with Time Delay
- Optical Response of a Randomly Modulated Two-Level Atom
- Real-Space Renormalization Group Approach to Critical Dynamics : Migdal Approximation and Other New Methods
- Band Theoretical Interpretation of Neutron Diffraction Phenomena in Ferromagnetic Metals
- Noise-Induced Enhancement of the Optical Bistability
- 10-Gb/s Repeaterless Transmission Using Standard Single-Mode Fiber With Pre-Chirping and Dispersion Compensation Techniques
- Second Order Optical Processes in a Localized Electron-Phonon System : -Transient Response-
- Second Order Optical Processes in a Localized Electron-Phonon System : -Stationary Response-
- Stochastic Models of Intermediate State Interaction in Second Order Optical Processes : Transient Response
- Stochastic Models of Intermediate State Interaction in Second Order Optical Processes : Stationary Response. : II
- Stochastic Models of Intermediate State Interaction in Second Order Optical Processes : Stationary Response. : I
- Note on the Paramagnetic Susceptibility and the Gyromagnetic Ratio in Metals
- On Impurity Pinning of One-Dimensional Charge Density Waves
- Second Order Optical Process of a Three-Level System in Contact with a Nearly Gaussian-Markoffian Noise Bath
- Generalized Cumulant Expansion Method
- Two-Time Correlation Functions of a System Coupled to a Heat Bath with a Gaussian-Markoffian Interaction
- Time-Dependent Spectrum of a Two-Level System Coupled to a Heat Bath Driven by Pulsed Laser
- Time Evolution of a Quantum System in Contact with a Nearly Gaussian-Markoffian Noise Bath
- Second Order Optical Process of A Randomly Modulated Multi-Level Atom
- A General Theory of Magnetic Resonance Absorption
- Statistical Theory of Linear Polymers : V. Paraffine-like Chain
- Electronic Properties of Fine Metallic Particles. : II. Plasma Resonance Absorption
- Note on the Stochastic Theory of Resonance Absorption
- A Note on the Orbital Diamagnetism of Nearly Free Electrons
- Large Elastic Deformation of Rubber
- Wigner Representation of Quantum Operators and Its Applications to Electrons in a Magnetic Field
- Interband Effects on Magnetic Susceptibility. : II. Diamagnetism of Bismuth
- Electrical Conduction in a Narrow Band. I. : Moment Method
- Interband Effect on Magnetic Susceptibility. : I. A Simple Two-Band Model
- Statistical-Mechanical Theory of Irreversible Processes.II. : Response to Thermal Disturbance
- Brownian Motion of Spins
- Quantum Theory of Galvanomagnetic Effect. I. : Basic Considerations
- The Method of Generating Function Applied to Radiative and Non-Radiative Transitions of a Trapped Electron in a Crystal
- Effective Hamiltonian Describing the Electronic States in Bismuth-Type Crystals. II
- Statistical-Mechanical Theory of Irreversible Processes : I. General Theory and Simple Applications to Magnetic and Conduction Problems
- Effective Hamiltonian Describing the Electronic States of Bismuth-Type Crystals. I
- Dynamics of the Ising Model near the Critical Point. I
- Applicaiton of the Method of Generating Function to Radiative and Non-Radiative Transitions of a Trapped Electron in a Crystal