Plasma-based X-ray laser at 21 nm for multidisciplinary applications

T. Mocek; B. Rus; M. Kozlová; J. Polan; P. Homer; K. Jakubczak; M. Stupka; D. Snopek; J. Nejdl; M. H. Edwards; D. S. Whittaker; G. J. Tallents; P. Mistry; G. J. Pert; N. Booth; Z. Zhai; M. Fajardo; P. Zeitoun; J. Chalupský; V. Hájková; L. Juha

doi:10.1140/epjd/e2009-00021-1

Plasma-based X-ray laser at 21 nm for multidisciplinary applications

T. Mocek
, B. Rus
, M. Kozlová
, J. Polan
, P. Homer
, K. Jakubczak
, M. Stupka
, D. Snopek
, J. Nejdl
, M. H. Edwards
, D. S. Whittaker
, G. J. Tallents
, P. Mistry
, G. J. Pert
, N. Booth
, Z. Zhai
, M. Fajardo
, P. Zeitoun
, J. Chalupský
, V. Hájková

L. Juha

Institute of Physics of the Czech Academy of Sciences
University of York
Instituto Superior Técnico

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

An overview of recent advances in applications of currently the most energetic X-ray laser at 21 nm is given. The unique parameters of this half-cavity based X-ray laser such as record output energy of 10 mJ, highly symmetric beam, robustness and reproducibility, have made it possible to carry out a number of multidisciplinary scientific projects featuring novel applications of intense coherent X-ray radiation. Selected results obtained in these experiments are reviewed, including X-ray laser probing of dense plasmas, measurements of transmission of focused soft X-ray radiation at intensities of up to 10¹² W∈cm^-2, measurements of infrared laser ablation rates of thin foils, and ablative microstructuring of solids.

langue originale	Anglais
Pages (de - à)	439-444
Nombre de pages	6
journal	European Physical Journal D
Volume	54
Numéro de publication	2
Les DOIs	https://doi.org/10.1140/epjd/e2009-00021-1
état	Publié - 1 janv. 2009

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10.1140/epjd/e2009-00021-1

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Mocek, T., Rus, B., Kozlová, M., Polan, J., Homer, P., Jakubczak, K., Stupka, M., Snopek, D., Nejdl, J., Edwards, M. H., Whittaker, D. S., Tallents, G. J., Mistry, P., Pert, G. J., Booth, N., Zhai, Z., Fajardo, M., Zeitoun, P., Chalupský, J., ... Juha, L. (2009). Plasma-based X-ray laser at 21 nm for multidisciplinary applications. European Physical Journal D, 54(2), 439-444. https://doi.org/10.1140/epjd/e2009-00021-1

@article{3cbaaeb7d119491aae05d9873f6fc18b,

title = "Plasma-based X-ray laser at 21 nm for multidisciplinary applications",

abstract = "An overview of recent advances in applications of currently the most energetic X-ray laser at 21 nm is given. The unique parameters of this half-cavity based X-ray laser such as record output energy of 10 mJ, highly symmetric beam, robustness and reproducibility, have made it possible to carry out a number of multidisciplinary scientific projects featuring novel applications of intense coherent X-ray radiation. Selected results obtained in these experiments are reviewed, including X-ray laser probing of dense plasmas, measurements of transmission of focused soft X-ray radiation at intensities of up to 1012 W∈cm-2, measurements of infrared laser ablation rates of thin foils, and ablative microstructuring of solids.",

author = "T. Mocek and B. Rus and M. Kozlov{\'a} and J. Polan and P. Homer and K. Jakubczak and M. Stupka and D. Snopek and J. Nejdl and Edwards, \{M. H.\} and Whittaker, \{D. S.\} and Tallents, \{G. J.\} and P. Mistry and Pert, \{G. J.\} and N. Booth and Z. Zhai and M. Fajardo and P. Zeitoun and J. Chalupsk{\'y} and V. H{\'a}jkov{\'a} and L. Juha",

year = "2009",

month = jan,

day = "1",

doi = "10.1140/epjd/e2009-00021-1",

language = "English",

volume = "54",

pages = "439--444",

journal = "European Physical Journal D",

issn = "1434-6060",

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Mocek, T, Rus, B, Kozlová, M, Polan, J, Homer, P, Jakubczak, K, Stupka, M, Snopek, D, Nejdl, J, Edwards, MH, Whittaker, DS, Tallents, GJ, Mistry, P, Pert, GJ, Booth, N, Zhai, Z, Fajardo, M, Zeitoun, P, Chalupský, J, Hájková, V & Juha, L 2009, 'Plasma-based X-ray laser at 21 nm for multidisciplinary applications', European Physical Journal D, VOL. 54, Numéro 2, p. 439-444. https://doi.org/10.1140/epjd/e2009-00021-1

TY - JOUR

T1 - Plasma-based X-ray laser at 21 nm for multidisciplinary applications

AU - Mocek, T.

AU - Rus, B.

AU - Kozlová, M.

AU - Polan, J.

AU - Homer, P.

AU - Jakubczak, K.

AU - Stupka, M.

AU - Snopek, D.

AU - Nejdl, J.

AU - Edwards, M. H.

AU - Whittaker, D. S.

AU - Tallents, G. J.

AU - Mistry, P.

AU - Pert, G. J.

AU - Booth, N.

AU - Zhai, Z.

AU - Fajardo, M.

AU - Zeitoun, P.

AU - Chalupský, J.

AU - Hájková, V.

AU - Juha, L.

PY - 2009/1/1

Y1 - 2009/1/1

N2 - An overview of recent advances in applications of currently the most energetic X-ray laser at 21 nm is given. The unique parameters of this half-cavity based X-ray laser such as record output energy of 10 mJ, highly symmetric beam, robustness and reproducibility, have made it possible to carry out a number of multidisciplinary scientific projects featuring novel applications of intense coherent X-ray radiation. Selected results obtained in these experiments are reviewed, including X-ray laser probing of dense plasmas, measurements of transmission of focused soft X-ray radiation at intensities of up to 1012 W∈cm-2, measurements of infrared laser ablation rates of thin foils, and ablative microstructuring of solids.

AB - An overview of recent advances in applications of currently the most energetic X-ray laser at 21 nm is given. The unique parameters of this half-cavity based X-ray laser such as record output energy of 10 mJ, highly symmetric beam, robustness and reproducibility, have made it possible to carry out a number of multidisciplinary scientific projects featuring novel applications of intense coherent X-ray radiation. Selected results obtained in these experiments are reviewed, including X-ray laser probing of dense plasmas, measurements of transmission of focused soft X-ray radiation at intensities of up to 1012 W∈cm-2, measurements of infrared laser ablation rates of thin foils, and ablative microstructuring of solids.

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VL - 54

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JO - European Physical Journal D

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ER -

Plasma-based X-ray laser at 21 nm for multidisciplinary applications

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