Characterization of near-LTE, high-temperature and high-density aluminum plasmas produced by ultra-high intensity lasers

V. Dervieux; B. Loupias; S. Baton; L. Lecherbourg; K. Glize; C. Rousseaux; C. Reverdin; L. Gremillet; C. Blancard; V. Silvert; J. C. Pain; C. R.D. Brown; P. Allan; M. P. Hill; D. J. Hoarty; P. Renaudin

doi:10.1016/j.hedp.2015.04.009

Characterization of near-LTE, high-temperature and high-density aluminum plasmas produced by ultra-high intensity lasers

V. Dervieux
, B. Loupias
, S. Baton
, L. Lecherbourg
, K. Glize
, C. Rousseaux
, C. Reverdin
, L. Gremillet
, C. Blancard
, V. Silvert
, J. C. Pain
, C. R.D. Brown
, P. Allan
, M. P. Hill
, D. J. Hoarty
, P. Renaudin

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

Résumé

Ultra-high-intensity lasers have opened up a new avenue for the creation and detailed spectral measurements of dense plasmas in extreme thermodynamic conditions. In this paper, we demonstrate the possibility of heating a dense plasma (ρ>1gcm^-3) to a maximum temperature of 560±40eV using a few-Joule, relativistic-intensity laser pulse. Particle-in-cell, radiation-hydrodynamic and atomic physics simulation tools are used together for a full description of the plasma dynamics, from laser interaction to late-time expansion and x-ray emission, yielding overall good agreement with the spectral measurements. We discuss the sensitivity of our analysis to space-time gradients, non-equilibrium ionization processes and hot electron effects.

langue originale	Anglais
Pages (de - à)	12-17
Nombre de pages	6
journal	High Energy Density Physics
Volume	16
Les DOIs	https://doi.org/10.1016/j.hedp.2015.04.009
état	Publié - 1 sept. 2015
Modification externe	Oui

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10.1016/j.hedp.2015.04.009

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Dervieux, V., Loupias, B., Baton, S., Lecherbourg, L., Glize, K., Rousseaux, C., Reverdin, C., Gremillet, L., Blancard, C., Silvert, V., Pain, J. C., Brown, C. R. D., Allan, P., Hill, M. P., Hoarty, D. J., & Renaudin, P. (2015). Characterization of near-LTE, high-temperature and high-density aluminum plasmas produced by ultra-high intensity lasers. High Energy Density Physics, 16, 12-17. https://doi.org/10.1016/j.hedp.2015.04.009

@article{f3b6fc2b54be46dca5e891449e6a4a01,

title = "Characterization of near-LTE, high-temperature and high-density aluminum plasmas produced by ultra-high intensity lasers",

abstract = "Ultra-high-intensity lasers have opened up a new avenue for the creation and detailed spectral measurements of dense plasmas in extreme thermodynamic conditions. In this paper, we demonstrate the possibility of heating a dense plasma (ρ>1gcm-3) to a maximum temperature of 560±40eV using a few-Joule, relativistic-intensity laser pulse. Particle-in-cell, radiation-hydrodynamic and atomic physics simulation tools are used together for a full description of the plasma dynamics, from laser interaction to late-time expansion and x-ray emission, yielding overall good agreement with the spectral measurements. We discuss the sensitivity of our analysis to space-time gradients, non-equilibrium ionization processes and hot electron effects.",

keywords = "Dense plasmas, HED, Isochoric heating, K-shell spectra, Plasma spectroscopy, UHI",

author = "V. Dervieux and B. Loupias and S. Baton and L. Lecherbourg and K. Glize and C. Rousseaux and C. Reverdin and L. Gremillet and C. Blancard and V. Silvert and Pain, \{J. C.\} and Brown, \{C. R.D.\} and P. Allan and Hill, \{M. P.\} and Hoarty, \{D. J.\} and P. Renaudin",

note = "Publisher Copyright: {\textcopyright} 2015 Elsevier B.V.",

year = "2015",

month = sep,

day = "1",

doi = "10.1016/j.hedp.2015.04.009",

language = "English",

volume = "16",

pages = "12--17",

journal = "High Energy Density Physics",

issn = "1574-1818",

}

Dervieux, V, Loupias, B, Baton, S, Lecherbourg, L, Glize, K, Rousseaux, C, Reverdin, C, Gremillet, L, Blancard, C, Silvert, V, Pain, JC, Brown, CRD, Allan, P, Hill, MP, Hoarty, DJ & Renaudin, P 2015, 'Characterization of near-LTE, high-temperature and high-density aluminum plasmas produced by ultra-high intensity lasers', High Energy Density Physics, VOL. 16, p. 12-17. https://doi.org/10.1016/j.hedp.2015.04.009

TY - JOUR

T1 - Characterization of near-LTE, high-temperature and high-density aluminum plasmas produced by ultra-high intensity lasers

AU - Dervieux, V.

AU - Loupias, B.

AU - Baton, S.

AU - Lecherbourg, L.

AU - Glize, K.

AU - Rousseaux, C.

AU - Reverdin, C.

AU - Gremillet, L.

AU - Blancard, C.

AU - Silvert, V.

AU - Pain, J. C.

AU - Brown, C. R.D.

AU - Allan, P.

AU - Hill, M. P.

AU - Hoarty, D. J.

AU - Renaudin, P.

PY - 2015/9/1

Y1 - 2015/9/1

N2 - Ultra-high-intensity lasers have opened up a new avenue for the creation and detailed spectral measurements of dense plasmas in extreme thermodynamic conditions. In this paper, we demonstrate the possibility of heating a dense plasma (ρ>1gcm-3) to a maximum temperature of 560±40eV using a few-Joule, relativistic-intensity laser pulse. Particle-in-cell, radiation-hydrodynamic and atomic physics simulation tools are used together for a full description of the plasma dynamics, from laser interaction to late-time expansion and x-ray emission, yielding overall good agreement with the spectral measurements. We discuss the sensitivity of our analysis to space-time gradients, non-equilibrium ionization processes and hot electron effects.

AB - Ultra-high-intensity lasers have opened up a new avenue for the creation and detailed spectral measurements of dense plasmas in extreme thermodynamic conditions. In this paper, we demonstrate the possibility of heating a dense plasma (ρ>1gcm-3) to a maximum temperature of 560±40eV using a few-Joule, relativistic-intensity laser pulse. Particle-in-cell, radiation-hydrodynamic and atomic physics simulation tools are used together for a full description of the plasma dynamics, from laser interaction to late-time expansion and x-ray emission, yielding overall good agreement with the spectral measurements. We discuss the sensitivity of our analysis to space-time gradients, non-equilibrium ionization processes and hot electron effects.

KW - Dense plasmas

KW - HED

KW - Isochoric heating

KW - K-shell spectra

KW - Plasma spectroscopy

KW - UHI

UR - https://www.scopus.com/pages/publications/84930677220

U2 - 10.1016/j.hedp.2015.04.009

DO - 10.1016/j.hedp.2015.04.009

M3 - Article

AN - SCOPUS:84930677220

SN - 1574-1818

VL - 16

SP - 12

EP - 17

JO - High Energy Density Physics

JF - High Energy Density Physics

ER -

Characterization of near-LTE, high-temperature and high-density aluminum plasmas produced by ultra-high intensity lasers

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