Nuclear-pumped gas lasers at temperatures up to 800˚C

Konak, A I; Melnikov, S. P.; Porkhaev, V V; Sinyanskiǐ, A. A.

doi:10.1017/s0263034600006418

Cited by 5 publications

(3 citation statements)

References 9 publications

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“…20 Many aspects of pumping schemes in cold, dense gases still need to be studied, in particular, the influence of impurities and parameters such as laser gas temperature, which are difficult to control, but strongly influence laser performance. [21][22][23][24] The simple laser setup described here can be used for such detailed studies. It is schematically shown in Fig.…”

Section: Methodsmentioning

confidence: 99%

Lasers in dense gases pumped by low-energy electron beams

Ulrich

Niessl

Wieser

et al. 1999

Journal of Applied Physics

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Articles you may be interested inInhibiting spontaneous etching of nanoscale electron beam induced etching features: Solutions for nanoscale repair of extreme ultraviolet lithography masks The use of low-energy ͑Ϸ15 keV͒ electron beams for pumping laser systems in dense gases with high specific power deposition is described. Thin ͑300 nm͒ SiN x ceramic foils used as entrance window in a transverse geometry for the electron beam allows pressure differentials of several atmospheres with low percentage energy loss in transmission. The 1.73 m XeI (5d͓3/2͔ 1 -6p͓5/2͔ 2 ) infrared laser was used for a first demonstration of this concept. The laser operated between 130 and 650 mbar. A threshold pumping power of 5.3 W and a maximum output power of 6 mW were observed. The system can be scaled to high pumping power ͑ϷMW/cm 3 ͒ and short wavelength.

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Section: Methodsmentioning

confidence: 99%

Lasers in dense gases pumped by low-energy electron beams

Ulrich

Niessl

Wieser

et al. 1999

Journal of Applied Physics

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“…reduction in the rate of formation of heteronuclear ArXe + ions and mixing laser levels by electrons [69], -destruction of ArXe + ions by buffer gas atoms [70], -collisional quenching and mixing laser levels by buffer gas atoms [71], -active medium contamination by impurities as a result of their desorption from laser cell walls as long as it is warming [72].…”

Section: Ir Lasers Operating On Transitions Of Xe Kr and Armentioning

confidence: 99%

Nuclear-Induced Plasmas of Gas Mixtures and Nuclear-Pumped Lasers

Хасенов¹

2016

High Energy and Short Pulse Lasers

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We briefly describe the basic processes of formation and relaxation of nuclear-induced plasmas of gas mixtures, especially the processes of inverse population creation in nuclear-pumped lasers (NPL). A review of the work to create and research nuclearpumped lasers is in progress: on transitions of atoms and atomic ions and on molecular transitions. An increased focus is on the gas media, which we also study on WWR-K nuclear reactor and DC-60 ion accelerator. The studies on emission of heteronuclear ionic molecules of inert gases are also reviewed.

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“…16 In strong contrast to the experiments discussed above, Batyrbekov and coworkers demonstrated 1.73 pm atomic xenon laser output that was insensitive to gas temperatures of up to 900 K." These experiments used an electric-discharge pumped laser in which the gas mixture was ionized by radiation from a continuously operating nuclear reactor. They showed that the output energy in a 'H~e/~He/Ar/xe (50/50/50/1, 1.5 atm.)…”

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confidence: 94%

Characteristics of the 2.65 {mu}m atomic xenon laser

Hebner¹

1995

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Nuclear-pumped gas lasers at temperatures up to 800˚C

Cited by 5 publications

References 9 publications

Lasers in dense gases pumped by low-energy electron beams

Lasers in dense gases pumped by low-energy electron beams

Nuclear-Induced Plasmas of Gas Mixtures and Nuclear-Pumped Lasers

Characteristics of the 2.65 {mu}m atomic xenon laser

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