Ionization equilibrium and radiative energy loss rates for C, N, and O ions in low-density plasmas

The results of calculations of the ionization equilibrium and radiative energy loss rates for C, N and O ions in low-density plasmas are presented for electron temperatures in the range 10 4–10 7 °K (∼1–10 3 eV). The ionization structure is determined using the steady-state corona model, in which el...

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Veröffentlicht in:	Journal of quantitative spectroscopy & radiative transfer 1978-01, Vol.19 (6), p.591-598
Hauptverfasser:	Jacobs, V.L., Davis, J., Rogerson, J.E., Blaha, M.
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Sprache:	eng
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container_end_page	598
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container_title	Journal of quantitative spectroscopy & radiative transfer
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creator	Jacobs, V.L. Davis, J. Rogerson, J.E. Blaha, M.
description	The results of calculations of the ionization equilibrium and radiative energy loss rates for C, N and O ions in low-density plasmas are presented for electron temperatures in the range 10 4–10 7 °K (∼1–10 3 eV). The ionization structure is determined using the steady-state corona model, in which electron impact ionization from the ground states is balanced by direct radiative and dielectronic recombination. Using an improved theory, detailed calculations are carried out for the dielectronic recombination rates in which account is taken of all radiative and autoionization processes involving a single-electron electricdipole transition of the recombining ion. The radiative energy loss processes considered are electron-impact excitation of resonance line emission, direct radiative recombination, dielectronic recombination, and electron-ion bremsstrahlung. For all three elements, resonance line emission resulting from 2 s−2 p transitions produces a broad maximum in the energy loss rate near 10 5°K(∼ 10 eV).
doi_str_mv	10.1016/0022-4073(78)90093-6
format	Article
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The ionization structure is determined using the steady-state corona model, in which electron impact ionization from the ground states is balanced by direct radiative and dielectronic recombination. Using an improved theory, detailed calculations are carried out for the dielectronic recombination rates in which account is taken of all radiative and autoionization processes involving a single-electron electricdipole transition of the recombining ion. The radiative energy loss processes considered are electron-impact excitation of resonance line emission, direct radiative recombination, dielectronic recombination, and electron-ion bremsstrahlung. 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The ionization structure is determined using the steady-state corona model, in which electron impact ionization from the ground states is balanced by direct radiative and dielectronic recombination. Using an improved theory, detailed calculations are carried out for the dielectronic recombination rates in which account is taken of all radiative and autoionization processes involving a single-electron electricdipole transition of the recombining ion. The radiative energy loss processes considered are electron-impact excitation of resonance line emission, direct radiative recombination, dielectronic recombination, and electron-ion bremsstrahlung. For all three elements, resonance line emission resulting from 2 s−2 p transitions produces a broad maximum in the energy loss rate near 10 5°K(∼ 10 eV).</abstract><pub>Elsevier Ltd</pub><doi>10.1016/0022-4073(78)90093-6</doi><tpages>8</tpages></addata></record>
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title	Ionization equilibrium and radiative energy loss rates for C, N, and O ions in low-density plasmas
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