Add to ORKGThe present study contributes to a better understanding of the atomic Xe laser as a powerful IR source. Several important phenomena like the dependence of both the observed optimized input power and maximum output power on the square of the gas density and also the constant fractional ionization are reported and verified theoretically. The insight in the kinetics of this system has also lead to the realization of small-size continuous systems with output powers in the range of watts. The results of the present study can be used to predict the performance of the atomic Xe laser under different operating conditions
We have experimentally investigated a recombination-pumped soft-x-ray laser on a Lyman-α transition ...
In an electron beam sustained discharge xenon laser the discharge energy deposition has been varied ...
We have experimentally investigated a recombination-pumped soft-x-ray laser on a Lyman-α transition ...
The present study contributes to a better understanding of the atomic Xe laser as a powerful IR sour...
A computer model has been developed to investigate the excitation and deexcitation mechanisms and to...
A computer model has been developed to investigate the excitation and deexcitation mechanisms and to...
The high pressure atomic xenon laser is becoming the most promising light source in the wavelength r...
The high pressure atomic xenon laser is becoming the most promising light source in the wavelength r...
The quasi-steady-state conditions of the multi-atmospheric e-beam sustained Ar-Xe laser are investig...
Abstract. Optimizations of gas composition and input energy were performed for gas mixtures containi...
High power near-infrared radiation (1–3 μm) can be generated with electro-ionization lasers using ra...
An efficient atomic Xe laser pumped by a combination of an e-beam and an electric discharge has been...
Near‐infrared atomic Xe laser lines have been generated from an Ar:He:Xe laser gas mixture excited b...
Abstract. In order to study the kinetic mechanism of the e-beam pumped Ar/Xe laser, the temporal pro...
24 infrared laser lines on atomic and ionic transitions have been observed in recombining plasmas by...
We have experimentally investigated a recombination-pumped soft-x-ray laser on a Lyman-α transition ...
In an electron beam sustained discharge xenon laser the discharge energy deposition has been varied ...
We have experimentally investigated a recombination-pumped soft-x-ray laser on a Lyman-α transition ...
The present study contributes to a better understanding of the atomic Xe laser as a powerful IR sour...
A computer model has been developed to investigate the excitation and deexcitation mechanisms and to...
A computer model has been developed to investigate the excitation and deexcitation mechanisms and to...
The high pressure atomic xenon laser is becoming the most promising light source in the wavelength r...
The high pressure atomic xenon laser is becoming the most promising light source in the wavelength r...
The quasi-steady-state conditions of the multi-atmospheric e-beam sustained Ar-Xe laser are investig...
Abstract. Optimizations of gas composition and input energy were performed for gas mixtures containi...
High power near-infrared radiation (1–3 μm) can be generated with electro-ionization lasers using ra...
An efficient atomic Xe laser pumped by a combination of an e-beam and an electric discharge has been...
Near‐infrared atomic Xe laser lines have been generated from an Ar:He:Xe laser gas mixture excited b...
Abstract. In order to study the kinetic mechanism of the e-beam pumped Ar/Xe laser, the temporal pro...
24 infrared laser lines on atomic and ionic transitions have been observed in recombining plasmas by...
We have experimentally investigated a recombination-pumped soft-x-ray laser on a Lyman-α transition ...
In an electron beam sustained discharge xenon laser the discharge energy deposition has been varied ...
We have experimentally investigated a recombination-pumped soft-x-ray laser on a Lyman-α transition ...