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Vladimir Nevdakh
Vladimir Nevdakh
Belarusian National Technical University
Подтвержден адрес электронной почты в домене bntu.by
Название
Процитировано
Процитировано
Год
Spontaneous emission probabilities and collisional line widths of 0001–[1000, 0200] I, II lasing transitions in the CO2 molecule
VV Nevdakh
Soviet Journal of Quantum Electronics 14 (8), 1091, 1984
311984
Temperature Dependence of the Vibrational Relaxation Rate Constants of CO2 (0001) in Binary Mixtures
VV Nevdakh, LN Orlov, NS Leshenyuk
Journal of Applied Spectroscopy 70, 276-284, 2003
202003
New operation regimes of a CO2 laser with intracavity saturable absorber
VV Nevdakh, OL Gaiko, LN Orlov
Optics communications 127 (4-6), 303-306, 1996
161996
Kvantovaya Elektron.(Moscow) 11 1622 Google Scholar Nevdakh VV 1984 Sov. J
VV Nevdakh
Quantum Electron 14, 1091, 1984
101984
Vibrational kinetics of the active media of CW CO2 lasers
VV Nevdakh, M Ganjali
Journal of Applied Spectroscopy 72, 75-83, 2005
92005
Dynamics of operation of a CO2 laser with methanol and ethanol vapours as intracavity saturable absorbers
OL Gaiko, LA Kotomtseva, VV Nevdakh, LN Orlov, AM Samson
Quantum Electronics 24 (7), 603, 1994
9*1994
Study of the parameters of the collisionally broadened R22 absorption line of the 1000-0001 transition in CO2 molecules: I. Experiment
KI Arshinov, MK Arshinov, VV Nevdakh
Optics and Spectroscopy 112, 844-849, 2012
72012
Temperature dependence of rate constants for vibrational relaxation of 0001 level of CO2 molecule in binary mixtures, Zh
VV Nevdakh, LN Orlov, NS Leshenyuk
Zh. Prikl. Spektrosk. 70 (2), 246-253, 2003
72003
Limitation of the output power of cw electric-discharge CO2 lasers
VV Nevdakh
Quantum Electronics 29 (4), 291, 1999
71999
Determination of vibrational temperatures in the active media of CO2 lasers
VV Nevdakh
Soviet Journal of Quantum Electronics 15 (12), 1610, 1985
71985
ON THE GAIN LIMITATION EFFECT IN ELECTRIC-DISCHARGE CO2-LASERS
VV Nevdakh
IZVESTIYA AKADEMII NAUK SERIYA FIZICHESKAYA 58 (2), 52-56, 1994
61994
Dynamical chaos in a CO2 laser with a saturable absorber
OL Gaiko, LA Kotomtseva, VV Nevdakh, LN Orlov, AM Samson
Zhurn. Prikl. Spektr.(Journ. Appl. Spectr.) 58, 287-293, 1993
61993
The effect of temperature on the creation of population inversion in the active media of electric-discharge CO2 lasers
VV Nevdakh
Quantum Electronics 31 (6), 525, 2001
52001
Vibrational temperatures and gain limitation in CO2 lasers
VV Nevdakh
Infrared physics 25 (6), 743-749, 1985
51985
Kvantovaya Elektron.(Moscow) 12 2437 Google Scholar Nevdakh VV 1985 Sov. J
VV Nevdakh
Quantum Electron 15, 1610, 1985
51985
Kvantovaya Elektron.(Moscow) 10 1485 Google Scholar Nevdakh VV, Leshenyuk NS, Orlov LN 1983 Sov. J
VV Nevdakh
Quantum Electron 13, 969, 1983
51983
Investigation of the active medium in a fast-flow closed-cycle industrial CO2 laser
VV Elov, VA Kuklin, NS Leshenyuk, VV Nevdakh
Soviet Journal of Quantum Electronics 12 (8), 999, 1982
51982
SIMULATION OF INITIAL STAGE OF STATIONARY FLAME FIRE IN INDOOR AREAS
VV Nevdakh, AA Antoshin, IE Zuikov
Science & Technique, 28-34, 2014
42014
Collisional broadening of CO2 lines by N2O pressure
AS Dudaryonok, NN Lavrentieva, KI Arshinov, VV Nevdakh
Atmospheric and Oceanic Optics 25, 12-18, 2012
42012
Optimization of the CO2:N2:He Ratio in the Active Media of Continuous-Wave Electric-Discharge CO2 Lasers
VV Nevdakh, M Gandzhali
Journal of Applied Spectroscopy 71, 532-538, 2004
42004
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Статьи 1–20