Abstract
The Free Electron Laser (FEL) may, in principle, provide high power coherent radiation over a broad range of the e.m. spectrum. For this reason, it has attracted considerable attention in a number of prospective fields of application, ranging from photochemistry to bio-medicine, plasma heating, electron beam acceleration, etc. Since the theory, experimental aspects and status of FELs have been discussed in a number of papers and books, this paper begins with a quick review of the basic properties of FELs, operating both in the oscillator and amplifier configurations, and addresses the interested reader to the already quoted references for more detailed discussions. The paper then discusses the motivations for the realization, by ENEA (Italian National Agency for New Technology, Energy and Environment), of a free electron laser operating in the region below 100 nm and at high peak power (>100 kW). To allow a better general understanding of the design problems, a detailed introduction to the physics of free electron lasers is provided.
Citation Formats
Barbini, R, Ciocci, F, Dattoli, G, Dipace, A, Giannessi, L, Mari, C, Ronsivalle, C, Sabia, E, Torre, A, and Marino, A.
Extreme UV single pass high gain FEL driven by self-triggered harmonic generation in oscillator regime: First ENEA report.
Italy: N. p.,
1991.
Web.
Barbini, R, Ciocci, F, Dattoli, G, Dipace, A, Giannessi, L, Mari, C, Ronsivalle, C, Sabia, E, Torre, A, & Marino, A.
Extreme UV single pass high gain FEL driven by self-triggered harmonic generation in oscillator regime: First ENEA report.
Italy.
Barbini, R, Ciocci, F, Dattoli, G, Dipace, A, Giannessi, L, Mari, C, Ronsivalle, C, Sabia, E, Torre, A, and Marino, A.
1991.
"Extreme UV single pass high gain FEL driven by self-triggered harmonic generation in oscillator regime: First ENEA report."
Italy.
@misc{etde_10120903,
title = {Extreme UV single pass high gain FEL driven by self-triggered harmonic generation in oscillator regime: First ENEA report}
author = {Barbini, R, Ciocci, F, Dattoli, G, Dipace, A, Giannessi, L, Mari, C, Ronsivalle, C, Sabia, E, Torre, A, and Marino, A}
abstractNote = {The Free Electron Laser (FEL) may, in principle, provide high power coherent radiation over a broad range of the e.m. spectrum. For this reason, it has attracted considerable attention in a number of prospective fields of application, ranging from photochemistry to bio-medicine, plasma heating, electron beam acceleration, etc. Since the theory, experimental aspects and status of FELs have been discussed in a number of papers and books, this paper begins with a quick review of the basic properties of FELs, operating both in the oscillator and amplifier configurations, and addresses the interested reader to the already quoted references for more detailed discussions. The paper then discusses the motivations for the realization, by ENEA (Italian National Agency for New Technology, Energy and Environment), of a free electron laser operating in the region below 100 nm and at high peak power (>100 kW). To allow a better general understanding of the design problems, a detailed introduction to the physics of free electron lasers is provided.}
place = {Italy}
year = {1991}
month = {Jun}
}
title = {Extreme UV single pass high gain FEL driven by self-triggered harmonic generation in oscillator regime: First ENEA report}
author = {Barbini, R, Ciocci, F, Dattoli, G, Dipace, A, Giannessi, L, Mari, C, Ronsivalle, C, Sabia, E, Torre, A, and Marino, A}
abstractNote = {The Free Electron Laser (FEL) may, in principle, provide high power coherent radiation over a broad range of the e.m. spectrum. For this reason, it has attracted considerable attention in a number of prospective fields of application, ranging from photochemistry to bio-medicine, plasma heating, electron beam acceleration, etc. Since the theory, experimental aspects and status of FELs have been discussed in a number of papers and books, this paper begins with a quick review of the basic properties of FELs, operating both in the oscillator and amplifier configurations, and addresses the interested reader to the already quoted references for more detailed discussions. The paper then discusses the motivations for the realization, by ENEA (Italian National Agency for New Technology, Energy and Environment), of a free electron laser operating in the region below 100 nm and at high peak power (>100 kW). To allow a better general understanding of the design problems, a detailed introduction to the physics of free electron lasers is provided.}
place = {Italy}
year = {1991}
month = {Jun}
}