Transition probabilities for Kr I lines from wall-stabilized arc measurements

W. E. Ernst; E. Schulz-Gulde

doi:10.1016/0378-4363(78)90120-1

Transition probabilities for Kr I lines from wall-stabilized arc measurements

W. E. Ernst^*, E. Schulz-Gulde

^*Corresponding author for this work

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

Abstract

Transition probabilities for 23 Kr I lines between 431.9 and 892.9 nm pertaining to the 5s-5p and 5s-6p transition arrays were obtained from wall-stabilized arc measurements analyzed under the assumption of a Saha-Boltzmann relationship between the electron density and the population densities of the excited Kr I levels. The electron density (n_e=5×10¹⁵-2.2×10¹⁷cm^-3) was calculated from the measured emission coefficient for continuum radiation at 456.1 nm. The electron temperature (T=9500-17 000 K) was determined from measurements of the Kr I 811.3 nm center line intensity by using Kirchhoff's law. The experimental transition probabilities decrease in the direction of larger electron densities. For n_e ≤ 2×10¹⁶cm^-3 there is agreement with published theoretical transition probabilities and lifetime measurements.

Original language	English
Pages (from-to)	136-144
Number of pages	9
Journal	Physica B+C
Volume	93
Issue number	1
DOIs	https://doi.org/10.1016/0378-4363(78)90120-1
Publication status	Published - Jan 1978
Externally published	Yes

ASJC Scopus subject areas

General Engineering

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title = "Transition probabilities for Kr I lines from wall-stabilized arc measurements",

abstract = "Transition probabilities for 23 Kr I lines between 431.9 and 892.9 nm pertaining to the 5s-5p and 5s-6p transition arrays were obtained from wall-stabilized arc measurements analyzed under the assumption of a Saha-Boltzmann relationship between the electron density and the population densities of the excited Kr I levels. The electron density (ne=5×1015-2.2×1017cm-3) was calculated from the measured emission coefficient for continuum radiation at 456.1 nm. The electron temperature (T=9500-17 000 K) was determined from measurements of the Kr I 811.3 nm center line intensity by using Kirchhoff's law. The experimental transition probabilities decrease in the direction of larger electron densities. For ne ≤ 2×1016cm-3 there is agreement with published theoretical transition probabilities and lifetime measurements.",

author = "Ernst, {W. E.} and E. Schulz-Gulde",

year = "1978",

month = jan,

doi = "10.1016/0378-4363(78)90120-1",

language = "English",

volume = "93",

pages = "136--144",

journal = "Physica B+C",

issn = "0378-4363",

publisher = "North-Holland Publ Co",

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TY - JOUR

T1 - Transition probabilities for Kr I lines from wall-stabilized arc measurements

AU - Ernst, W. E.

AU - Schulz-Gulde, E.

PY - 1978/1

Y1 - 1978/1

N2 - Transition probabilities for 23 Kr I lines between 431.9 and 892.9 nm pertaining to the 5s-5p and 5s-6p transition arrays were obtained from wall-stabilized arc measurements analyzed under the assumption of a Saha-Boltzmann relationship between the electron density and the population densities of the excited Kr I levels. The electron density (ne=5×1015-2.2×1017cm-3) was calculated from the measured emission coefficient for continuum radiation at 456.1 nm. The electron temperature (T=9500-17 000 K) was determined from measurements of the Kr I 811.3 nm center line intensity by using Kirchhoff's law. The experimental transition probabilities decrease in the direction of larger electron densities. For ne ≤ 2×1016cm-3 there is agreement with published theoretical transition probabilities and lifetime measurements.

AB - Transition probabilities for 23 Kr I lines between 431.9 and 892.9 nm pertaining to the 5s-5p and 5s-6p transition arrays were obtained from wall-stabilized arc measurements analyzed under the assumption of a Saha-Boltzmann relationship between the electron density and the population densities of the excited Kr I levels. The electron density (ne=5×1015-2.2×1017cm-3) was calculated from the measured emission coefficient for continuum radiation at 456.1 nm. The electron temperature (T=9500-17 000 K) was determined from measurements of the Kr I 811.3 nm center line intensity by using Kirchhoff's law. The experimental transition probabilities decrease in the direction of larger electron densities. For ne ≤ 2×1016cm-3 there is agreement with published theoretical transition probabilities and lifetime measurements.

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U2 - 10.1016/0378-4363(78)90120-1

DO - 10.1016/0378-4363(78)90120-1

M3 - Article

AN - SCOPUS:0343012738

SN - 0378-4363

VL - 93

SP - 136

EP - 144

JO - Physica B+C

JF - Physica B+C

IS - 1

ER -

Transition probabilities for Kr I lines from wall-stabilized arc measurements

Abstract

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