Add to ORKGThe molecular F2* laser is a powerful laser source in the vacuum ultraviolet. Therefore, it is interesting in applications such as high-resolution. lithography, photochemical vapor deposition, and efficient x-ray production. Recently, high-output energy has been reported in discharge pumped systems.1 However, numbers on important parameters such as the gain and saturation intensity of the laser medium are only partly availabl
A XeF(C->A) laser utilizing an electron-beam controlled electric discharge for excitation was invest...
Includes bibliographical references (pages 627-628).We have obtained CW laser action on four transit...
Using kinetic and gas-dynamic equations we solve a numerical model giving main fluid-dynamic paramet...
The net‐small‐signal gain of a molecular fluorine F2 * laser pumped by a coaxial electron beam has b...
The net‐small‐signal gain of a molecular fluorine F2* laser pumped by a coaxial electron beam has be...
The thesis concerns experimental studies of discharge excited lasers operating in the vacuum ultravi...
The output energy and the temporal behavior of a molecular F*2 laser pumped by a coaxial electron be...
A long pulse molecular F2 laser (λ equals 157 nm) with an optical pulse width of 160 ns and an outpu...
A long pulse molecular F2 laser ((lambda) equals 157 nm) with an optical pulse width of 160 ns and a...
Spatial and temporal gain profiles as well as the peak net gain at 193 nm have been measured in X-ra...
Abstract. Measurements of the output energy, the optical pulse length and the build-up time of the l...
We report an investigation of a high-pressure molecular fluorine laser operating at 158 nm. Several ...
Measurements of the output energy, the optical pulse length and the build-up time of the laser pulse...
Fluorine-based excimer gas lasers are powerful sources of coherent radiation in the UV and VUV part ...
Low energy electron beam excitation of dense gases holds the potential for producing very high power...
A XeF(C->A) laser utilizing an electron-beam controlled electric discharge for excitation was invest...
Includes bibliographical references (pages 627-628).We have obtained CW laser action on four transit...
Using kinetic and gas-dynamic equations we solve a numerical model giving main fluid-dynamic paramet...
The net‐small‐signal gain of a molecular fluorine F2 * laser pumped by a coaxial electron beam has b...
The net‐small‐signal gain of a molecular fluorine F2* laser pumped by a coaxial electron beam has be...
The thesis concerns experimental studies of discharge excited lasers operating in the vacuum ultravi...
The output energy and the temporal behavior of a molecular F*2 laser pumped by a coaxial electron be...
A long pulse molecular F2 laser (λ equals 157 nm) with an optical pulse width of 160 ns and an outpu...
A long pulse molecular F2 laser ((lambda) equals 157 nm) with an optical pulse width of 160 ns and a...
Spatial and temporal gain profiles as well as the peak net gain at 193 nm have been measured in X-ra...
Abstract. Measurements of the output energy, the optical pulse length and the build-up time of the l...
We report an investigation of a high-pressure molecular fluorine laser operating at 158 nm. Several ...
Measurements of the output energy, the optical pulse length and the build-up time of the laser pulse...
Fluorine-based excimer gas lasers are powerful sources of coherent radiation in the UV and VUV part ...
Low energy electron beam excitation of dense gases holds the potential for producing very high power...
A XeF(C->A) laser utilizing an electron-beam controlled electric discharge for excitation was invest...
Includes bibliographical references (pages 627-628).We have obtained CW laser action on four transit...
Using kinetic and gas-dynamic equations we solve a numerical model giving main fluid-dynamic paramet...