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Short Wavelength Laboratory Sources: Principles and Practices
Edited by
Davide Bleiner;
Davide Bleiner
University of Bern, Switzerland
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John Costello;
John Costello
Dublin City University, Ireland
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Francois de Dortan;
Francois de Dortan
Institute of Nuclear Fusion- DENIM, UPM, Spain
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Ladislav Pina;
Ladislav Pina
Czech Technical University, Czech Republic
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Alan Michette
Alan Michette
Kings College London, UK
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Hardback ISBN:
978-1-84973-456-1
PDF ISBN:
978-1-84973-501-8
No. of Pages:
451
Published online:
04 Dec 2014
Published in print:
15 Dec 2014
Book Chapter
Bremsstrahlung X-ray Emission in Electron-Beam-Pumped KrF Lasers
By
V.D. Zvorykin
;
V.D. Zvorykin
National Research Nuclear University “MEPhI”
Kashirskoe Shosse 31
Moscow
115409
Russia
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S.V. Arlantsev
S.V. Arlantsev
Moscow Institute of Physics and Technology (State University)
9 Institutskii Pereulok, Dolgoprudnyi, Moscow Region
141700
Russia
[email protected]
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Published:04 Dec 2014
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Page range:
207 - 232
Citation
V. Zvorykin and S. Arlantsev, in Short Wavelength Laboratory Sources: Principles and Practices, ed. D. Bleiner, J. Costello, F. de Dortan, G. O'Sullivan, L. Pina, and A. Michette, The Royal Society of Chemistry, 2014, pp. 207-232.
Download citation file:
In this chapter a comprehensive investigation is presented of Bremsstrahlung X-ray emission (i) that accompanies e-beam transport from vacuum diodes into the laser chamber through foil windows and (ii) via deceleration of electrons in the working gas mixture of the KrF laser. The energy flux of X-rays incident on laser windows is a key for scaling to larger KrF amplifiers.
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