LTE absorption spectroscopy of an X-ray heated boron plasma

F. Gilleron; H. Merdji; M. Fajardo; O. Henrot; J. C. Gauthier; C. Chenais-Popovics; W. Fölsner; K. Eidmann

doi:10.1016/S0022-4073(00)00078-9

LTE absorption spectroscopy of an X-ray heated boron plasma

F. Gilleron
, H. Merdji
, M. Fajardo
, O. Henrot
, J. C. Gauthier
, C. Chenais-Popovics
, W. Fölsner
, K. Eidmann

LULI
Max-Planck Institut für Quantenoptik

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

Résumé

Time-resolved K-shell spectroscopy of an X-ray driven boron sample is reported. A small cavity irradiated by two frequency-doubled Nd:glass laser beams is used as an X-ray heating source, allowing to reach electron temperatures in the 10-25 eV range, in conditions close to local thermodynamic equilibrium. Synthetic spectra obtained from detailed atomic calculations are fitted to the experimental data to determine the electron temperature and the density of plasma. We compare the resulting data to radiative hydrodynamic simulations of the heating and expansion of the sample, and find lower densities and higher temperatures than predicted by the code. The reason for this discrepancy is attributed to difficulties in maintaining the boron sample homogeneity and to take into account properly the expansion of the plasma walls with such small-size cavities.

langue originale	Anglais
Pages (de - à)	217-229
Nombre de pages	13
journal	Journal of Quantitative Spectroscopy and Radiative Transfer
Volume	69
Numéro de publication	2
Les DOIs	https://doi.org/10.1016/S0022-4073(00)00078-9
état	Publié - 15 févr. 2001

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10.1016/S0022-4073(00)00078-9

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title = "LTE absorption spectroscopy of an X-ray heated boron plasma",

abstract = "Time-resolved K-shell spectroscopy of an X-ray driven boron sample is reported. A small cavity irradiated by two frequency-doubled Nd:glass laser beams is used as an X-ray heating source, allowing to reach electron temperatures in the 10-25 eV range, in conditions close to local thermodynamic equilibrium. Synthetic spectra obtained from detailed atomic calculations are fitted to the experimental data to determine the electron temperature and the density of plasma. We compare the resulting data to radiative hydrodynamic simulations of the heating and expansion of the sample, and find lower densities and higher temperatures than predicted by the code. The reason for this discrepancy is attributed to difficulties in maintaining the boron sample homogeneity and to take into account properly the expansion of the plasma walls with such small-size cavities.",

author = "F. Gilleron and H. Merdji and M. Fajardo and O. Henrot and Gauthier, \{J. C.\} and C. Chenais-Popovics and W. F{\"o}lsner and K. Eidmann",

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doi = "10.1016/S0022-4073(00)00078-9",

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TY - JOUR

T1 - LTE absorption spectroscopy of an X-ray heated boron plasma

AU - Gilleron, F.

AU - Merdji, H.

AU - Fajardo, M.

AU - Henrot, O.

AU - Gauthier, J. C.

AU - Chenais-Popovics, C.

AU - Fölsner, W.

AU - Eidmann, K.

PY - 2001/2/15

Y1 - 2001/2/15

N2 - Time-resolved K-shell spectroscopy of an X-ray driven boron sample is reported. A small cavity irradiated by two frequency-doubled Nd:glass laser beams is used as an X-ray heating source, allowing to reach electron temperatures in the 10-25 eV range, in conditions close to local thermodynamic equilibrium. Synthetic spectra obtained from detailed atomic calculations are fitted to the experimental data to determine the electron temperature and the density of plasma. We compare the resulting data to radiative hydrodynamic simulations of the heating and expansion of the sample, and find lower densities and higher temperatures than predicted by the code. The reason for this discrepancy is attributed to difficulties in maintaining the boron sample homogeneity and to take into account properly the expansion of the plasma walls with such small-size cavities.

AB - Time-resolved K-shell spectroscopy of an X-ray driven boron sample is reported. A small cavity irradiated by two frequency-doubled Nd:glass laser beams is used as an X-ray heating source, allowing to reach electron temperatures in the 10-25 eV range, in conditions close to local thermodynamic equilibrium. Synthetic spectra obtained from detailed atomic calculations are fitted to the experimental data to determine the electron temperature and the density of plasma. We compare the resulting data to radiative hydrodynamic simulations of the heating and expansion of the sample, and find lower densities and higher temperatures than predicted by the code. The reason for this discrepancy is attributed to difficulties in maintaining the boron sample homogeneity and to take into account properly the expansion of the plasma walls with such small-size cavities.

U2 - 10.1016/S0022-4073(00)00078-9

DO - 10.1016/S0022-4073(00)00078-9

M3 - Article

AN - SCOPUS:0035864659

SN - 0022-4073

VL - 69

SP - 217

EP - 229

JO - Journal of Quantitative Spectroscopy and Radiative Transfer

JF - Journal of Quantitative Spectroscopy and Radiative Transfer

IS - 2

ER -

LTE absorption spectroscopy of an X-ray heated boron plasma

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