4 edition of Physical processes in low-temperature gas-dynamic lasers found in the catalog.
Includes bibliographical references and index.
|Statement||edited by V.K. Konyukhov, translated by S.A. Stewart.|
|Series||Proceedings of the Institute of General Physics, Academy of Sciences of the USSR -- v. 12., Trudy Instituta obshcheĭ fiziki -- v. 12.|
|Contributions||Konyukhov, V. K.|
|The Physical Object|
|Pagination||ix, 223 p. :|
|Number of Pages||223|
Well, there were regular meetings, '61 through '65, and then there was another one I think in '67, when the gas dynamic lasers came on. Kelley: Wood's Hole? Bloembergen: Wood's Hole, and gas dynamics was the big thing there. Then the thermal blooming problems. Then IDA sort of petered out. Kelley: But then there was a lot of funding, of course. The characteristic properties of the inverted-population-forming processes in lasers with ionizing pumping are considered. Results obtained from research of active laser media concerning the p-s transitions of atoms of neon, mercury, and cadmium are presented. The feasibility of ion-ion recombination in lasers with nuclear pumping is discussed. The excitation kinetics of the first negative Cited by: 1.
Cambridge Core - Plasma Physics and Fusion Physics - Plasma Chemistry - by Alexander Fridman. "Time Resolved Diagnostics of Excimer Laser Generated Ablation Plasmas Used For Pulsed Laser Deposition", David B. Geohegan, p. inExcimer Lasers: The Tools, Fundamental Processes and Applications,, Kluwer Academic Publishers, Netherlands, ().
S.A. Kaiser, M.B. Long: The effect of temperature and quenching on laser-induced fluorescence of naphtalenes as JP-8 tracers. In: Chemical and Physical Processes in Combustion – Technical Meeting of the Eastern States Section of the Combustion Institute (Pennsylvania State University, University Park ) Google Scholar. Basic theoretical study of these physical processes has to include important components, namely gas-dynamics, photon transport processes, the equation of state, Author: Nikolay Yu. Orlov, Maxim A. Kadatskiy, Oleg B. Denisov, Konstantin V. Khishchenko.
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Additional Physical Format: Online version: Physical processes in low-temperature gas-dynamic lasers. Commack, NY: Nova Science Publishers, © Physical processes in low-temperature gas-dynamic lasers Book Konyukhov, V.K.
The book focuses on the coupled mode CO[sub 2] gasdynamic laser ( [mu]m) and the feasibility of an H[sub 2]O or D[sub 2]O gasdynamic laser (in the submilimeter region) that could operate at exceptionally low stagnation temperatures.
A 'read' is counted each time someone views a publication summary (such as the title, abstract, and list of authors), clicks on a figure, or views or downloads the full-text. The book contains the results of investigations of electro-physical, chemical, gas-dynamic and other processes in low-temperature plasma and their diagnostics.
Both conventional spectral and optical methods of diagnostics and new and laser methods are examined, together with electrostatic probes for investigating rarefied and dense plasma, especially in the presence of chemical reactions.
The book offers an extensive in-depth examination of gas kinetics, excitation processes, hydrodynamics, and other important aspects of gas lasers with specialization to CO2. The book contains the results of investigations of electro-physical, chemical, gas-dynamic and other processes in low-temperature plasma Physical processes in low-temperature gas-dynamic lasers book their diagnostics.
Both conventional spectral and optical methods of diagnostics and new and laser methods are examined, together with electrostatic probes for investigating rarefied and dense plasma. The department’s plasma experimental research programs concern basic topics of relevance to advanced accelerators and lasers, Z-pinches, magnetic and inertial confinement fusion, radiation generation, plasma thrusters, materials processing, low temperature plasmas and applications.
Physical and Chemical Processes in Gas Dynamics: Physical and Chemical Kinetics and Thermodynamics Volume II G. Chernyi, S. Losev Moscow, S. Macheret, B. Potapkin Chernyi (scientific advisor, Institute of Mechanics, Moscow State University) presents models and formulas produced over the past ten years by scientists at the AVAGADRO Laboratory.
Compressed hydrogen. Compressed hydrogen is a storage form where hydrogen gas is kept under pressures to increase the storage density. Compressed hydrogen in hydrogen tanks at bar (5, psi) and bar (10, psi) is used for hydrogen tank systems in vehicles, based on type IV carbon-composite technology.
Car manufacturers have been developing this solution, such as Honda or Nissan. Abstract. Low temperature plasma science (LTPS) is a field on the verge of an intellectual revolution.
Partially ionized plasmas (often referred to as gas discharges) are used for an enormous range of practical applications, from light sources and lasers to surgery. Bayadze K.V.,Theoretical investigation of influence of non-equilibrium vibrational kinetics on discharge stability and plasma-chemical processes in molecular lasers, PhD dissertation, Tbilissi (in.
Anthony E. Siegman (Novem – October 7, ) was an electrical engineer and educator concerned with masers and lasers. New!!: Laser and Anthony E. Siegman See more» Anthony J. DeMaria. Anthony J. DeMaria is an American researcher in lasers and their applications, particularly known for his work with picosecond laser pulses.
The book contains the results of investigations of electro-physical, chemical, gas-dynamic and other processes in low-temperature plasma and their diagnostics. More THERMAL PLASMA TORCHES AND TECHNOLOGIES (IN TWO VOLUMES).
Relaxation of CO2 molecules during adiabatic expansion in gas dynamic laser Adam Cenian Proc. SPIE9th International Symposium on Gas Flow and Chemical Lasers, pg (4 May ); doi: / Stochastic and order phase structures in active medium flow of gas-dynamic laser Valery O.
Kovalevsky ; Vitaly V. Lobachev Proc. SPIELaser Optics High-Power Gas Lasers, pg (1 March ); doi: / For sophisticated treatments of the optical mode Gas-dynamic phenomena in chemical lasers structure in an active cavity, the one-dimensional gas-dynamic analysis may serve as a simple model of the medium where more complex models are not required (e.g., parametric studies, initial stages of the development of computational schemes, etc.).Cited by: 4.
If the power density is increased to between 10 6 and 10 8 W/cm 2, collisional effects in the vapor phase become significant and vapor flow changes from free molecular flow to gas dynamic flow.(In molecular flow, the escape probability is unity, i.e., a collision-less flow.
The transition from free molecular flow to gas dynamic flow is defined to occur when the escape probability is one-half).Author: M.
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This book presents new instruments and methods for studying the dynamics of fast processes. The manuscript consists of two parts: Part I discusses the use of high speed metal vapor brightness amplifiers for object and process imaging, and Part II addresses the plasma parameters of a high-voltage nanosecond discharge initiated by a runaway electron beam.
Chemical lasers - PDF Free Download.Encyclopedia > letter C > cryogenic lasers. Cryogenic Lasers. Definition: lasers where the gain medium is operated at cryogenic temperatures. Alternative term: cryogenically cooled lasers. German: tieftemperaturgekühlte Laser. Category: lasers.
How to cite the article; suggest additional literature. Author: Dr. Rüdiger Paschotta The idea of operating lasers at low temperatures is not exactly.And Ted Cotter made the observation that one should be able to solve that problem by a gas dynamic expansion much as one uses in the CO 2 gas dynamic lasers, to freeze out most of the competing vibrational levels, except the ground state so that their rotational structure did not overlap.
And indeed D. F. Smith's analysis indicated that if one.