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Publications in Math-Net.Ru
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Slab lasers on fundamental and overtone transitions of the carbon monoxide molecule with capacitive radio-frequency discharge pumping and cryogenic cooling of electrodes
Kvantovaya Elektronika, 53:6 (2023), 444–451
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Broadband carbon monoxide laser system operating in the wavelength range of 2.5 – 8.3 μm
Kvantovaya Elektronika, 43:2 (2013), 139–143
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Influence of small oxygen additions on the small-signal-gain dynamics in the active medium of a pulsed electron-beam-controlled discharge CO laser
Kvantovaya Elektronika, 38:9 (2008), 833–839
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Pulsed electron-beam sustained discharge CO laser on oxygen-containing gas mixtures
Kvantovaya Elektronika, 38:2 (2008), 115–124
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Multifrequency laser probing of CO-containing gas mixtures excited in a pulsed discharge
Kvantovaya Elektronika, 37:3 (2007), 231–236
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Gain dynamics in a pulsed laser amplifier on CO – He, CO – N2 and CO – O2 gas mixtures
Kvantovaya Elektronika, 37:2 (2007), 111–117
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A pulsed overtone CO laser with efficiency of 16%
Kvantovaya Elektronika, 36:12 (2006), 1153–1154
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High-power supersonic CO laser on fundamental and overtone transitions
Kvantovaya Elektronika, 35:12 (2005), 1126–1130
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Gain dynamics in the active medium of a pulsed e-beam sustained discharge CO laser: theory and experiment
Kvantovaya Elektronika, 35:12 (2005), 1107–1112
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Pulsed electron-beam-sustained discharge in oxygen-containing gas mixtures: electrical characteristics, spectroscopy,and singlet oxygen yield
Kvantovaya Elektronika, 34:9 (2004), 865–870
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Turbulent structure of the active medium of a fast-flow CO2 laser
Kvantovaya Elektronika, 33:8 (2003), 671–676
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Pulsed laser operating on the first vibrational overtone of the CO molecule in the 2.5 – 4.2-μm range: 3. The gain and kinetic processes on high vibrational levels
Kvantovaya Elektronika, 32:5 (2002), 404–410
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Pulsed laser operating on the first overtone of the CO molecule in the 2.5 — 4.2-μm range. II. Frequency-selective lasing
Kvantovaya Elektronika, 30:10 (2000), 859–866
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Pulsed laser operating on the first vibrational overtone of the CO molecule in the 2.5 — 4.2-μm range: 1. Multifrequency lasing
Kvantovaya Elektronika, 30:9 (2000), 771–777
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Intracavity phase conjugation of the radiation from a pulsed frequency-selective CO laser
Kvantovaya Elektronika, 30:4 (2000), 342–348
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Nonlinear optical properties of the active medium in intracavity phase conjugation of the radiation of a pulsed electron-beam-controlled discharge CO2 laser. II. Theoretical analysis
Kvantovaya Elektronika, 25:10 (1998), 905–910
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Nonlinear optical properties of the active medium in intracavity phase conjugation of the radiation of a pulsed electron-beam-controlled discharge CO2 laser. I. Experiments
Kvantovaya Elektronika, 25:8 (1998), 739–744
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High-frequency temporal structure of laser and phase-conjugated signals in intracavity degenerate four-wave mixing of radiation from electron-beam-controlled discharge CO2 and CO lasers in their active media
Kvantovaya Elektronika, 24:7 (1997), 631–637
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Active medium of molecular CO2 and CO lasers as a nonlinear component of a phase-conjugating mirror
Kvantovaya Elektronika, 21:6 (1994), 557–560
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Pulsed electron-beam-controlled carbon monoxide laser amplifiers. II. Amplification of radiation pulses from an electron-beam-controlled CO laser with controlled spectral and temporal characteristics
Kvantovaya Elektronika, 16:1 (1989), 18–27
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Pulsed electron-beam-controlled carbon monoxide laser amplifiers. I. Amplification of radiation from a CO laser operating in the free-running regime
Kvantovaya Elektronika, 16:1 (1989), 9–17
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Nonlinear absorption and spectral conversion of laser radiation by carbon monoxide molecules excited in an electron-beam-controlled discharge
Kvantovaya Elektronika, 14:10 (1987), 2018–2020
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Pulsed electron-beam-controlled laser using mixtures of isotopically substituted CO2 molecules
Kvantovaya Elektronika, 13:12 (1986), 2386–2390
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Errata to the article: Pulsed laser operating on the first vibrational overtone of the CO molecule in the 2.5 – 4.2-ìm range: 3. The gain and kinetic processes on high vibrational levels
Kvantovaya Elektronika, 32:8 (2002), 750
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