Physical Processes in Lasers [E-Book] / edited by Academician D. V. Skobel’tsyn.
The present collection of articles sets forth the results of experimental research on physical processes in various types of optical quantum devices (lasers). Data are presented on the regulation of the temporal and spectral characteristics of solid-state lasers using a bleachable filter. A mode sel...
Saved in:
Full text |
|
Personal Name(s): | Skobel’tsyn, Academician D. V., editor |
Imprint: |
Boston, MA :
Springer,
1973
|
Physical Description: |
IX, 181 p. online resource. |
Note: |
englisch |
ISBN: |
9781468416022 |
DOI: |
10.1007/978-1-4684-1602-2 |
Series Title: |
/* Depending on the record driver, $field may either be an array with
"name" and "number" keys or a flat string containing only the series
name. We should account for both cases to maximize compatibility. */?>
The Lebedev Physics Institute Series ;
56 |
Subject (LOC): |
- Mode Discrimination and the Self-Locking Effect in Solid-State Lasers Using a Bleachable Filter A. S. Markin
- 1. Q Switching of Lasers by Means of a Passive Shutter
- 2. Spectral Composition of Solid-State Laser Emission and Mode Discrimination by Various Cavity Elements
- 3. Development of the Emission Pulse in the Case of Passive Switching
- 4. Self Mode Locking in a Solid-State Laser Using a Bleachable Filter
- Detection and Investigation of Stimulated Emission in a Pinched Discharge V. M. Sutovsk
- 1. State of the Art of Pulsed Ionic Laser Research
- 2. On the Creation of Negative-Temperature States in a Pinch-Discharge Plasma
- 3. Investigation of the Characteristics of a Pinch Discharge
- 4. Properties of Stimulated Emission in a Pinch-Discharge Plasma at the Transitions of Singly and Doubly Ionized Argon Atoms
- Chapters 5. Determination of the Parameters of the Pinch-Discharge Plasma
- Physical Processes in Molecular Hydrogen, Deuterium, and First-Positive-Band-System Nitrogen Pulsed Gas-Discharge Lasers I. N. Knyaze
- 1. State of the Art of Research on Pulsed Gas-Discharge Lasers; Statement of the Problem
- 2. Experimental Methodological Problems
- 3. Pulsed Emission from H2, D2, and HD Molecules
- 4. Temporal and Energy Characteristics of the First-Positive-Band-System Molecular Nitrogen Laser
- 5. Stimulated Emission Spectrum of the N2(+1) Laser and Interpretation of the Vibrational-Rotational Structural Features of this Spectrum
- 6. Aspects of the. Physics of Pulsed Discharge
- 7. Population Dynamics of the Upper Laser Levels in the 1+ Band System of N2
- 8. Elementary Quantitative Theory of Laser Action in the 1+ Band System of N2.