Theoretical interpretation of X-rays photo-absorption in medium-Z elements plasmas measured at LULI2000 facility

T. Blenski; G. Loisel; M. Poirier; F. Thais; P. Arnault; T. Caillaud; J. Fariaut; F. Gilleron; J. C. Pain; Q. Porcherot; C. Reverdin; V. Silvert; B. Villette; S. Bastiani-Ceccotti; S. Turck-Chièze; W. Foelsner; F. de Gaufridy De Dortan

doi:10.1016/j.hedp.2011.06.004

Theoretical interpretation of X-rays photo-absorption in medium-Z elements plasmas measured at LULI2000 facility

T. Blenski
, G. Loisel
, M. Poirier
, F. Thais
, P. Arnault
, T. Caillaud
, J. Fariaut
, F. Gilleron
, J. C. Pain
, Q. Porcherot
, C. Reverdin
, V. Silvert
, B. Villette
, S. Bastiani-Ceccotti
, S. Turck-Chièze
, W. Foelsner
, F. de Gaufridy De Dortan

Research output: Contribution to journal › Article › peer-review

Abstract

We analyzed the spectra of X-ray transmission through radiatively heated medium- Z plasma (Fe, Ni, Cu and Ge) measured at LULI2000 facility in the wavelength range of 2. p- nd transitions. The analysis was performed using the statistical superconfiguration code SCO, two line-by-line opacity codes based on the HULLAC and FAC packages and a new hybrid statistical-detailed code SCORCG. The temperature and mass density of the samples were estimated from hydrodynamic simulations based on the cavity radiative temperature measurements. The theory-experiment agreement is relatively good in the wavelength range corresponding to the 2. p-3. d transitions except in the germanium case. In the wavelength range of the 2. p-2. d, n > 3 transitions a relatively good theory-experiment agreement was found in the copper case. As predicted by calculations the separation of the characteristic spin-orbit-split 2. p-3. d structures, absent in the iron measured spectrum, appears in the nickel spectrum and is visible in the copper and germanium spectra. Comparisons of the experimental transmission with calculations confirm the importance of the relativistic configuration interaction. The absorption strength of the measured germanium 2. p-3. d transition is much larger than that obtained from the codes. Spatial temperature and density gradients, relatively high in the germanium sample, may be at the origin of this discrepancy.

Original language	English
Pages (from-to)	320-326
Number of pages	7
Journal	High Energy Density Physics
Volume	7
Issue number	4
DOIs	https://doi.org/10.1016/j.hedp.2011.06.004
Publication status	Published - 1 Jan 2011

Keywords

2p-3d transitions
Dense plasma of medium Z elements
Line-by-line and statistical atomic physics codes
Spin-orbit splitting
X-rays opacity

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10.1016/j.hedp.2011.06.004

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Blenski, T., Loisel, G., Poirier, M., Thais, F., Arnault, P., Caillaud, T., Fariaut, J., Gilleron, F., Pain, J. C., Porcherot, Q., Reverdin, C., Silvert, V., Villette, B., Bastiani-Ceccotti, S., Turck-Chièze, S., Foelsner, W., & de Gaufridy De Dortan, F. (2011). Theoretical interpretation of X-rays photo-absorption in medium-Z elements plasmas measured at LULI2000 facility. High Energy Density Physics, 7(4), 320-326. https://doi.org/10.1016/j.hedp.2011.06.004

@article{3f7d506d0b9b4cbc93965e33f5c892a1,

title = "Theoretical interpretation of X-rays photo-absorption in medium-Z elements plasmas measured at LULI2000 facility",

abstract = "We analyzed the spectra of X-ray transmission through radiatively heated medium- Z plasma (Fe, Ni, Cu and Ge) measured at LULI2000 facility in the wavelength range of 2. p- nd transitions. The analysis was performed using the statistical superconfiguration code SCO, two line-by-line opacity codes based on the HULLAC and FAC packages and a new hybrid statistical-detailed code SCORCG. The temperature and mass density of the samples were estimated from hydrodynamic simulations based on the cavity radiative temperature measurements. The theory-experiment agreement is relatively good in the wavelength range corresponding to the 2. p-3. d transitions except in the germanium case. In the wavelength range of the 2. p-2. d, n > 3 transitions a relatively good theory-experiment agreement was found in the copper case. As predicted by calculations the separation of the characteristic spin-orbit-split 2. p-3. d structures, absent in the iron measured spectrum, appears in the nickel spectrum and is visible in the copper and germanium spectra. Comparisons of the experimental transmission with calculations confirm the importance of the relativistic configuration interaction. The absorption strength of the measured germanium 2. p-3. d transition is much larger than that obtained from the codes. Spatial temperature and density gradients, relatively high in the germanium sample, may be at the origin of this discrepancy.",

keywords = "2p-3d transitions, Dense plasma of medium Z elements, Line-by-line and statistical atomic physics codes, Spin-orbit splitting, X-rays opacity",

author = "T. Blenski and G. Loisel and M. Poirier and F. Thais and P. Arnault and T. Caillaud and J. Fariaut and F. Gilleron and Pain, \{J. C.\} and Q. Porcherot and C. Reverdin and V. Silvert and B. Villette and S. Bastiani-Ceccotti and S. Turck-Chi{\`e}ze and W. Foelsner and \{de Gaufridy De Dortan\}, F.",

year = "2011",

month = jan,

day = "1",

doi = "10.1016/j.hedp.2011.06.004",

language = "English",

volume = "7",

pages = "320--326",

journal = "High Energy Density Physics",

issn = "1574-1818",

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Blenski, T, Loisel, G, Poirier, M, Thais, F, Arnault, P, Caillaud, T, Fariaut, J, Gilleron, F, Pain, JC, Porcherot, Q, Reverdin, C, Silvert, V, Villette, B, Bastiani-Ceccotti, S, Turck-Chièze, S, Foelsner, W & de Gaufridy De Dortan, F 2011, 'Theoretical interpretation of X-rays photo-absorption in medium-Z elements plasmas measured at LULI2000 facility', High Energy Density Physics, vol. 7, no. 4, pp. 320-326. https://doi.org/10.1016/j.hedp.2011.06.004

TY - JOUR

T1 - Theoretical interpretation of X-rays photo-absorption in medium-Z elements plasmas measured at LULI2000 facility

AU - Blenski, T.

AU - Loisel, G.

AU - Poirier, M.

AU - Thais, F.

AU - Arnault, P.

AU - Caillaud, T.

AU - Fariaut, J.

AU - Gilleron, F.

AU - Pain, J. C.

AU - Porcherot, Q.

AU - Reverdin, C.

AU - Silvert, V.

AU - Villette, B.

AU - Bastiani-Ceccotti, S.

AU - Turck-Chièze, S.

AU - Foelsner, W.

AU - de Gaufridy De Dortan, F.

PY - 2011/1/1

Y1 - 2011/1/1

N2 - We analyzed the spectra of X-ray transmission through radiatively heated medium- Z plasma (Fe, Ni, Cu and Ge) measured at LULI2000 facility in the wavelength range of 2. p- nd transitions. The analysis was performed using the statistical superconfiguration code SCO, two line-by-line opacity codes based on the HULLAC and FAC packages and a new hybrid statistical-detailed code SCORCG. The temperature and mass density of the samples were estimated from hydrodynamic simulations based on the cavity radiative temperature measurements. The theory-experiment agreement is relatively good in the wavelength range corresponding to the 2. p-3. d transitions except in the germanium case. In the wavelength range of the 2. p-2. d, n > 3 transitions a relatively good theory-experiment agreement was found in the copper case. As predicted by calculations the separation of the characteristic spin-orbit-split 2. p-3. d structures, absent in the iron measured spectrum, appears in the nickel spectrum and is visible in the copper and germanium spectra. Comparisons of the experimental transmission with calculations confirm the importance of the relativistic configuration interaction. The absorption strength of the measured germanium 2. p-3. d transition is much larger than that obtained from the codes. Spatial temperature and density gradients, relatively high in the germanium sample, may be at the origin of this discrepancy.

AB - We analyzed the spectra of X-ray transmission through radiatively heated medium- Z plasma (Fe, Ni, Cu and Ge) measured at LULI2000 facility in the wavelength range of 2. p- nd transitions. The analysis was performed using the statistical superconfiguration code SCO, two line-by-line opacity codes based on the HULLAC and FAC packages and a new hybrid statistical-detailed code SCORCG. The temperature and mass density of the samples were estimated from hydrodynamic simulations based on the cavity radiative temperature measurements. The theory-experiment agreement is relatively good in the wavelength range corresponding to the 2. p-3. d transitions except in the germanium case. In the wavelength range of the 2. p-2. d, n > 3 transitions a relatively good theory-experiment agreement was found in the copper case. As predicted by calculations the separation of the characteristic spin-orbit-split 2. p-3. d structures, absent in the iron measured spectrum, appears in the nickel spectrum and is visible in the copper and germanium spectra. Comparisons of the experimental transmission with calculations confirm the importance of the relativistic configuration interaction. The absorption strength of the measured germanium 2. p-3. d transition is much larger than that obtained from the codes. Spatial temperature and density gradients, relatively high in the germanium sample, may be at the origin of this discrepancy.

KW - 2p-3d transitions

KW - Dense plasma of medium Z elements

KW - Line-by-line and statistical atomic physics codes

KW - Spin-orbit splitting

KW - X-rays opacity

U2 - 10.1016/j.hedp.2011.06.004

DO - 10.1016/j.hedp.2011.06.004

M3 - Article

AN - SCOPUS:79960025018

SN - 1574-1818

VL - 7

SP - 320

EP - 326

JO - High Energy Density Physics

JF - High Energy Density Physics

IS - 4

ER -

Theoretical interpretation of X-rays photo-absorption in medium-Z elements plasmas measured at LULI2000 facility

Abstract

Keywords

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