Zero-Field Level-Crossing Effects in a Cascade Process Induced by Highly Saturated Xenon Laser Field
スポンサーリンク
概要
- 論文の詳細を見る
Intensity change of spontaneous emission from the lower laser level induced by a linearly polarized laser transition has been studied as a function of magnetic field. By using a zero-field interference effect between magnetic sublevels, the decay times of the upper and lower laser levels can be measured. The intensity change of spontaneous emission has been investigated experimentally in a 3.51 μm (5d_<33>⇾6p_<22>) and a 5.57 μm (5d_<34>⇾6p_<23>i xenon laser as a function of polarization directions of the laser radiation and the spontaneous emission, the parameters being the gas pressure and the discharge current. The observed intensity change has two overlapping components of different widths, their ratio being about 1:20. It is found that the narrow component is caused by fourth-order perturbation of the laser field, the coherence among sublevels of the upper laser state being transferred to the lower state. The observed decay time of the lower laser level is 3.5×10^<-8>s for the 6p_<22> level and 2.5×10^<-8>s for the 6p_<23> state at a pressure of 13 mTorr. The observed decay time of the upper level is very sensitive to the discharge conditions and takes a value of (3∼8)×10^<-7>s for the 5d_<34> level.
- 社団法人日本物理学会の論文
- 1969-03-05
著者
-
Shimoda Koichi
Department Of Physicas University Of Tokyo
-
TSUKAKOSHI Motoo
Department of Physics, University of Tokyo
-
Tsukakoshi Motoo
Department Of Physics University Of Tokyo
関連論文
- Fluctuations in Amplification of Quanta with Application to Maser Amplifiers
- Operation of a Double-Discharge TEA CO_2 Laser without Helium
- Beam-Type Masers for Radiofrequency Spectroscopy
- Magnetic Hyperfine Spectrum of H_2CO by a Maser
- Measurements of Focused Beam Intensity by a Double-Beam Maser
- Stark Effect of Vibration-Rotation Lines of Formaldehyde Observed by a 3.5μm Laser
- Isotope Shift of Neon in the 3.39μm Maser Transition
- High Resolution Spectroscopy of Formaldehyde by a Tunable Infrared Maser
- Microwave Spectrum of Formaldehyde : I. K-type Doubling Spectra
- Microwave Zeeman Effect of Formaldehyde
- l-type Doubling Spectra of HCN and DCN
- Microwave Spectra of Formaldehyde -d_1 -d_2
- Frequency Stabilization of the 3.39-μm Laser on a CH_4 Line
- Observation of Stimulated Raman Emission and Stimulated Rayleigh-Wing Scattering from Self-Trapped Filaments of a Laser Beam
- Magnetic Hyperfine Structure of the J=3, K=2 Line of N^H_3
- Rotational Transitions of CH_4 in the υ_3=1 Excited State Observed by an Infrared-Microwave Double Resonance Method
- Stark Effect of the Absorption Line of Methane Observed by the 3.391μm He-Ne Maser
- Magnetic Hyperfine Structure of the 3,2 Line of Ammonia
- l-Type Doubling Spectra of HCN and DCN in the SHF Region
- Microwave Spectra of Formaldehyde and Methylamine in the SHF Region
- Liquid SeOCl_2:Nd^ Laser of High Quality
- Fluorescence Spectrum of Tb^ in the POCl_3-SnCl_4 Liquid
- Non-Transverse Electromagnetic Waves with Parallel Electric and Magnetic Fields
- Cylindrical Mode of Oscillation in a Ruby Optical Maser
- Theoretical Considerations of the Three-Level Maser Detector for the Far-Infrared
- Tunable Infrared Maser Spectrometers
- Nonlinear Level Crossing in the Standing-Wave Field
- The Pressure Dependence of Absorption Coefficient in Organic Gases at 3.3913 μm and 3.5070 μm.
- Gain, Frequency Shift, and Angular Distribution of Stimulated Raman Radiations under Multimode Excitation
- Self-Modulation and Picosecond-Pulse Generation by Stimulated Raman Scattering
- The Three-Level Gas Maser as a Microwave Spectrometer
- A Ruby Laser with External Mirrors of Large Spacing
- Stark Spectroscopy Using a CW Dye Laser and Its Application to NO_2
- Optical Third Harmonic Generation by Molecular Vibration
- Radiofrequency Spectroscopy Using Three-Level Maser Action
- Magnetic Perturbation of an Ammonia Maser on the 3, 2 Line
- Three-Level Maser Detector for Ultramicrowaves
- Hyperfine Interactions in the v_3=1 Exited State of Methane
- Ammonia Maser on the 3, 2 Line as a Frequency Standard I
- Hyperfine Spectrum of Xenon in the 3.5-μm Maser Transition
- Receiving Tubes with Very Small Grid Current
- Fifth-, Seventh- and Ninth-Order Calculations of the Lamb Dip in Lasers and Saturated Absorption
- Angular Distribution of Stimulated Raman Radiation
- Atomic Clocks and Frequency Standards on an Ammonia Line. III
- A Zeeman Modulation Microwave Spectrograph of High Sensitivity.
- The Hyperfine Structure of Sodium by a Microwave Absorption Method.
- Inversion Spectrum of Ammonia
- Atomic Clocks and Frequency Standard on an Ammonia Line. I.
- 0ptical Collision Diameters of H_2CO and CH_4 Measured by the Infrared Maser Spectrograph
- Lifetimes and Cross-Sections of Laser Levels of Xenon Measured by Hanle Effect
- A Symmetrical Six-arms Waveguide Circuit for Microwave Bridge.
- Precise Frequency of the 3,3 Inversion Line of Ammonia
- Ultimate Stability of Methane-Stabilized Lasers
- Higher Order Calculation of the Lamb Dip in the Output of an Optical Maser
- Characteristics of the Beam Type Maser. II
- Light Modulation Experiment of Xe Atoms with Laser Light.II. Experimental Results
- Light Modulation Experiment of Xe Atoms with Laser Light.I. Theoretical Analysis
- Zero-Field Level-Crossing Effects in a Cascade Process Induced by Highly Saturated Xenon Laser Field
- Microwave Spectrum of Methylamine
- Mode Conversion Losses in a TE_ Type Cavity Resonator with Tilted End-plate
- Exact Solutions in the Semi-Classical Theory of a Gas Laser for Two Special Cases
- "Non-Adiabatic" Behavior in a Low Frequency Beam-Type Maser
- Exact Solutions of Field Vectors of Diffraction-Free Electromagnetic Waves
- Frequency Shifts in Methane-Stabilized Lasers
- Dependence of Magnetic Coupling Constant of Ammonia on the Inversion State
- Characteristics of an Ammonia Beam Maser
- Atomic Clocks and Frequency Standards on an Ammonia Line. II
- New Lines of the Inversion Spectrum of Ammonia
- Microwave Spectrum of Methylamine (I)
- Microwave Spectrum of Methylamine (II)