High energy electron transport in solids

R. B. Stephens; R. P.J. Snavely; Y. Aglitskii; K. U. Akli; F. Amiranoff; C. Andersen; D. Batani; S. D. Baton; T. Cowan; R. R. Freeman; J. S. Green; H. Habara; T. Hall; S. P. Hatchett; D. S. Hey; J. M. Hill; J. L. Kaae; M. H. Key; J. A. King; J. A. Koch; R. Kodama; M. Koenig; K. Krushelnick; K. L. Lancaster; A. J. MacKinnon; E. Martinolli; C. D. Murphy; M. Nakatsutsumi; P. Norreys; E. Perelli-Cippo; M. Rabec Le Gloahec; B. Remington; C. Rousseaux; J. J. Santos; F. Scianitti; C. Stoeckl; M. Tabak; K. A. Tanaka; W. Theobald; R. Town; T. Yabuuchi; B. Zhang

doi:10.1051/jp4:2006133072

High energy electron transport in solids

R. B. Stephens
, R. P.J. Snavely
, Y. Aglitskii
, K. U. Akli
, F. Amiranoff
, C. Andersen
, D. Batani
, S. D. Baton
, T. Cowan
, R. R. Freeman
, J. S. Green
, H. Habara
, T. Hall
, S. P. Hatchett
, D. S. Hey
, J. M. Hill
, J. L. Kaae
, M. H. Key
, J. A. King
, J. A. Koch

R. Kodama, M. Koenig, K. Krushelnick, K. L. Lancaster, A. J. MacKinnon, E. Martinolli, C. D. Murphy, M. Nakatsutsumi, P. Norreys, E. Perelli-Cippo, M. Rabec Le Gloahec, B. Remington, C. Rousseaux, J. J. Santos, F. Scianitti, C. Stoeckl, M. Tabak, K. A. Tanaka, W. Theobald, R. Town, T. Yabuuchi, B. Zhang

General Atomics
Lawrence Livermore National Laboratory
Science Applications International Corporation
University of California, Davis
University of Rochester Laboratory for Laser Energetics
University of Nevada, Reno
The Ohio State University
CCLRC Rutherford Appleton Laboratory
University of Essex
Institute for Laser Engineering
Imperial College London
University of Milano-Bicocca
Centre d'Etudes de Limeil-Valenton

Résultats de recherche: Le chapitre dans un livre, un rapport, une anthologie ou une collection › Contribution à une conférence › Revue par des pairs

Résumé

With the addition of recent PW shots, the propagation of short-pulse laser generated electron beams have been studied using laser pulse energies from 30 J to 300 J, generating currents up to ∼15 MA in solid Al:Cu targets. This is ∼5% of the current that will be required in an ignition pulse. To this level, the current appears to simply scale with laser power, the propagation spread not change at all. The resistance of the aluminum does not seem to play a role in the propagation characteristics, though it might in setting the current starting parameters. We do find that at the highest currents parts of these targets reach temperatures high enough to modify the Cu-K₂ emission spectrum rendering our Bragg imaging mirrors ineffective; spectrometers will be needed to collect data at these higher temperatures.

langue originale	Anglais
titre	Proceedings - IFSA 2005
Sous-titre	Inertial Fusion Sciences and Applications 2005
Pages	355-360
Nombre de pages	6
Les DOIs	https://doi.org/10.1051/jp4:2006133072
état	Publié - 1 juin 2006
Evénement	IFSA 2005: Inertial Fusion Sciences and Applications 2005 - Biarritz, France Durée: 4 sept. 2005 → 9 sept. 2005

Série de publications

Nom	Journal De Physique. IV : JP
Volume	133
ISSN (imprimé)	1155-4339
ISSN (Electronique)	1764-7177

Une conférence

Une conférence	IFSA 2005: Inertial Fusion Sciences and Applications 2005
Pays/Territoire	France
La ville	Biarritz
période	4/09/05 → 9/09/05

Accès au document

10.1051/jp4:2006133072

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Contient cette citation

Stephens, R. B., Snavely, R. P. J., Aglitskii, Y., Akli, K. U., Amiranoff, F., Andersen, C., Batani, D., Baton, S. D., Cowan, T., Freeman, R. R., Green, J. S., Habara, H., Hall, T., Hatchett, S. P., Hey, D. S., Hill, J. M., Kaae, J. L., Key, M. H., King, J. A., ... Zhang, B. (2006). High energy electron transport in solids. Dans Proceedings - IFSA 2005: Inertial Fusion Sciences and Applications 2005 (p. 355-360). (Journal De Physique. IV : JP; Vol 133). https://doi.org/10.1051/jp4:2006133072

@inproceedings{8aebc7cd08b84f1aa1d77d50186ac9d5,

title = "High energy electron transport in solids",

abstract = "With the addition of recent PW shots, the propagation of short-pulse laser generated electron beams have been studied using laser pulse energies from 30 J to 300 J, generating currents up to ∼15 MA in solid Al:Cu targets. This is ∼5\% of the current that will be required in an ignition pulse. To this level, the current appears to simply scale with laser power, the propagation spread not change at all. The resistance of the aluminum does not seem to play a role in the propagation characteristics, though it might in setting the current starting parameters. We do find that at the highest currents parts of these targets reach temperatures high enough to modify the Cu-K2 emission spectrum rendering our Bragg imaging mirrors ineffective; spectrometers will be needed to collect data at these higher temperatures.",

author = "Stephens, \{R. B.\} and Snavely, \{R. P.J.\} and Y. Aglitskii and Akli, \{K. U.\} and F. Amiranoff and C. Andersen and D. Batani and Baton, \{S. D.\} and T. Cowan and Freeman, \{R. R.\} and Green, \{J. S.\} and H. Habara and T. Hall and Hatchett, \{S. P.\} and Hey, \{D. S.\} and Hill, \{J. M.\} and Kaae, \{J. L.\} and Key, \{M. H.\} and King, \{J. A.\} and Koch, \{J. A.\} and R. Kodama and M. Koenig and K. Krushelnick and Lancaster, \{K. L.\} and MacKinnon, \{A. J.\} and E. Martinolli and Murphy, \{C. D.\} and M. Nakatsutsumi and P. Norreys and E. Perelli-Cippo and \{Le Gloahec\}, \{M. Rabec\} and B. Remington and C. Rousseaux and Santos, \{J. J.\} and F. Scianitti and C. Stoeckl and M. Tabak and Tanaka, \{K. A.\} and W. Theobald and R. Town and T. Yabuuchi and B. Zhang",

year = "2006",

month = jun,

day = "1",

doi = "10.1051/jp4:2006133072",

language = "English",

isbn = "2868839258",

series = "Journal De Physique. IV : JP",

pages = "355--360",

booktitle = "Proceedings - IFSA 2005",

note = "IFSA 2005: Inertial Fusion Sciences and Applications 2005 ; Conference date: 04-09-2005 Through 09-09-2005",

}

Stephens, RB, Snavely, RPJ, Aglitskii, Y, Akli, KU, Amiranoff, F, Andersen, C, Batani, D, Baton, SD, Cowan, T, Freeman, RR, Green, JS, Habara, H, Hall, T, Hatchett, SP, Hey, DS, Hill, JM, Kaae, JL, Key, MH, King, JA, Koch, JA, Kodama, R, Koenig, M, Krushelnick, K, Lancaster, KL, MacKinnon, AJ, Martinolli, E, Murphy, CD, Nakatsutsumi, M, Norreys, P, Perelli-Cippo, E, Le Gloahec, MR, Remington, B, Rousseaux, C, Santos, JJ, Scianitti, F, Stoeckl, C, Tabak, M, Tanaka, KA, Theobald, W, Town, R, Yabuuchi, T & Zhang, B 2006, High energy electron transport in solids. Dans Proceedings - IFSA 2005: Inertial Fusion Sciences and Applications 2005. Journal De Physique. IV : JP, VOL. 133, p. 355-360, IFSA 2005: Inertial Fusion Sciences and Applications 2005, Biarritz, France, 4/09/05. https://doi.org/10.1051/jp4:2006133072

High energy electron transport in solids. / Stephens, R. B.; Snavely, R. P.J.; Aglitskii, Y. et al.
Proceedings - IFSA 2005: Inertial Fusion Sciences and Applications 2005. 2006. p. 355-360 (Journal De Physique. IV : JP; Vol 133).

Résultats de recherche: Le chapitre dans un livre, un rapport, une anthologie ou une collection › Contribution à une conférence › Revue par des pairs

TY - GEN

T1 - High energy electron transport in solids

AU - Stephens, R. B.

AU - Snavely, R. P.J.

AU - Aglitskii, Y.

AU - Akli, K. U.

AU - Amiranoff, F.

AU - Andersen, C.

AU - Batani, D.

AU - Baton, S. D.

AU - Cowan, T.

AU - Freeman, R. R.

AU - Green, J. S.

AU - Habara, H.

AU - Hall, T.

AU - Hatchett, S. P.

AU - Hey, D. S.

AU - Hill, J. M.

AU - Kaae, J. L.

AU - Key, M. H.

AU - King, J. A.

AU - Koch, J. A.

AU - Kodama, R.

AU - Koenig, M.

AU - Krushelnick, K.

AU - Lancaster, K. L.

AU - MacKinnon, A. J.

AU - Martinolli, E.

AU - Murphy, C. D.

AU - Nakatsutsumi, M.

AU - Norreys, P.

AU - Perelli-Cippo, E.

AU - Le Gloahec, M. Rabec

AU - Remington, B.

AU - Rousseaux, C.

AU - Santos, J. J.

AU - Scianitti, F.

AU - Stoeckl, C.

AU - Tabak, M.

AU - Tanaka, K. A.

AU - Theobald, W.

AU - Town, R.

AU - Yabuuchi, T.

AU - Zhang, B.

PY - 2006/6/1

Y1 - 2006/6/1

N2 - With the addition of recent PW shots, the propagation of short-pulse laser generated electron beams have been studied using laser pulse energies from 30 J to 300 J, generating currents up to ∼15 MA in solid Al:Cu targets. This is ∼5% of the current that will be required in an ignition pulse. To this level, the current appears to simply scale with laser power, the propagation spread not change at all. The resistance of the aluminum does not seem to play a role in the propagation characteristics, though it might in setting the current starting parameters. We do find that at the highest currents parts of these targets reach temperatures high enough to modify the Cu-K2 emission spectrum rendering our Bragg imaging mirrors ineffective; spectrometers will be needed to collect data at these higher temperatures.

AB - With the addition of recent PW shots, the propagation of short-pulse laser generated electron beams have been studied using laser pulse energies from 30 J to 300 J, generating currents up to ∼15 MA in solid Al:Cu targets. This is ∼5% of the current that will be required in an ignition pulse. To this level, the current appears to simply scale with laser power, the propagation spread not change at all. The resistance of the aluminum does not seem to play a role in the propagation characteristics, though it might in setting the current starting parameters. We do find that at the highest currents parts of these targets reach temperatures high enough to modify the Cu-K2 emission spectrum rendering our Bragg imaging mirrors ineffective; spectrometers will be needed to collect data at these higher temperatures.

UR - https://www.scopus.com/pages/publications/33749336676

U2 - 10.1051/jp4:2006133072

DO - 10.1051/jp4:2006133072

M3 - Conference contribution

AN - SCOPUS:33749336676

SN - 2868839258

SN - 9782868839251

T3 - Journal De Physique. IV : JP

SP - 355

EP - 360

BT - Proceedings - IFSA 2005

T2 - IFSA 2005: Inertial Fusion Sciences and Applications 2005

Y2 - 4 September 2005 through 9 September 2005

ER -

High energy electron transport in solids

Résumé

Série de publications

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Accès au document

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