Absolute photoemission cross sections of ultraviolet emissions produced by electron-impact dissociation of boron trichloride

P. G. Gilbert, R. B. Siegel, K. Becker

Research output: Contribution to journalArticle

Abstract

We report absolute photoemission cross sections and appearance potentials for the most intense ultraviolet emissions produced by electron-impact dissociation of boron trichloride, BCl3. The emission features studied include two atomic boron emissions, the 2p2 2D2p 2P°line at 208.9 nm and the 3s 2S2p 2P°line at 249.8 nm, which is the strongest ultraviolet emission feature, as well as the BCl A 1 X 1 + system centered at 272.4 nm, whose previously reported cross section had to be revised upward by about 20% to 3×10-18 cm2 at 40 eV. The 249.8-nm boron line was found to have the largest emission cross section with a value of 5.4×10-18 cm2 at 75 eV. All cross sections displayed a prominent double onset structure with the second onset roughly 13 eV above the first one, which is very close to the ionization energy of atomic chlorine. This indicates the presence of a strong channel producing excited-state boron or boron chloride fragments simultaneously with ground-state chlorine ions. An attempt has been made to separate this ionic channel from the neutral channel in which neutral ground-state atoms are the only by-products accompanying the formation of the excited fragments.

Original languageEnglish (US)
Pages (from-to)5594-5599
Number of pages6
JournalPhysical Review A
Volume41
Issue number10
DOIs
StatePublished - 1990

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ultraviolet emission
electron impact
boron
photoelectric emission
chlorides
dissociation
cross sections
chlorine
boron chlorides
fragments
ground state
ionization
excitation
atoms
ions
energy

ASJC Scopus subject areas

  • Physics and Astronomy(all)
  • Atomic and Molecular Physics, and Optics

Cite this

Absolute photoemission cross sections of ultraviolet emissions produced by electron-impact dissociation of boron trichloride. / Gilbert, P. G.; Siegel, R. B.; Becker, K.

In: Physical Review A, Vol. 41, No. 10, 1990, p. 5594-5599.

Research output: Contribution to journalArticle

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abstract = "We report absolute photoemission cross sections and appearance potentials for the most intense ultraviolet emissions produced by electron-impact dissociation of boron trichloride, BCl3. The emission features studied include two atomic boron emissions, the 2p2 2D2p 2P°line at 208.9 nm and the 3s 2S2p 2P°line at 249.8 nm, which is the strongest ultraviolet emission feature, as well as the BCl A 1 X 1 + system centered at 272.4 nm, whose previously reported cross section had to be revised upward by about 20{\%} to 3×10-18 cm2 at 40 eV. The 249.8-nm boron line was found to have the largest emission cross section with a value of 5.4×10-18 cm2 at 75 eV. All cross sections displayed a prominent double onset structure with the second onset roughly 13 eV above the first one, which is very close to the ionization energy of atomic chlorine. This indicates the presence of a strong channel producing excited-state boron or boron chloride fragments simultaneously with ground-state chlorine ions. An attempt has been made to separate this ionic channel from the neutral channel in which neutral ground-state atoms are the only by-products accompanying the formation of the excited fragments.",
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N2 - We report absolute photoemission cross sections and appearance potentials for the most intense ultraviolet emissions produced by electron-impact dissociation of boron trichloride, BCl3. The emission features studied include two atomic boron emissions, the 2p2 2D2p 2P°line at 208.9 nm and the 3s 2S2p 2P°line at 249.8 nm, which is the strongest ultraviolet emission feature, as well as the BCl A 1 X 1 + system centered at 272.4 nm, whose previously reported cross section had to be revised upward by about 20% to 3×10-18 cm2 at 40 eV. The 249.8-nm boron line was found to have the largest emission cross section with a value of 5.4×10-18 cm2 at 75 eV. All cross sections displayed a prominent double onset structure with the second onset roughly 13 eV above the first one, which is very close to the ionization energy of atomic chlorine. This indicates the presence of a strong channel producing excited-state boron or boron chloride fragments simultaneously with ground-state chlorine ions. An attempt has been made to separate this ionic channel from the neutral channel in which neutral ground-state atoms are the only by-products accompanying the formation of the excited fragments.

AB - We report absolute photoemission cross sections and appearance potentials for the most intense ultraviolet emissions produced by electron-impact dissociation of boron trichloride, BCl3. The emission features studied include two atomic boron emissions, the 2p2 2D2p 2P°line at 208.9 nm and the 3s 2S2p 2P°line at 249.8 nm, which is the strongest ultraviolet emission feature, as well as the BCl A 1 X 1 + system centered at 272.4 nm, whose previously reported cross section had to be revised upward by about 20% to 3×10-18 cm2 at 40 eV. The 249.8-nm boron line was found to have the largest emission cross section with a value of 5.4×10-18 cm2 at 75 eV. All cross sections displayed a prominent double onset structure with the second onset roughly 13 eV above the first one, which is very close to the ionization energy of atomic chlorine. This indicates the presence of a strong channel producing excited-state boron or boron chloride fragments simultaneously with ground-state chlorine ions. An attempt has been made to separate this ionic channel from the neutral channel in which neutral ground-state atoms are the only by-products accompanying the formation of the excited fragments.

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