The vacuum-UV absorption spectrum of SF5CF3; implications for its lifetime in the earth’s atmosphere

RYL Chim; Richard Kennedy; Richard Tuckett

doi:10.1016/S0009-2614(02)01763-3

The vacuum-UV absorption spectrum of SF5CF3; implications for its lifetime in the earth’s atmosphere

RYL Chim, Richard Kennedy, Richard Tuckett

Chemistry

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Abstract

Using vacuum-UV radiation from a synchrotron source, the absorption spectrum of SF\(_5\)CF\(_3\) has been measured in the range 50-150 nm at a resolution of 0.12 nm. The cross section at the Lyman-\(\alpha\) wavelength of 121.6 nm is 1.5 \(\pm\) 0.3 x 10\(^{-17}\) cm\(^2\) molecule\(^{-1}\). The loss of SF\(_5\)CF\(_3\) on a molecular basis from the earth’s atmosphere is dominated, not by photon-induced dissociation, but by electron attachment in the mesosphere above 60 km, yielding SF\(_5^-\). The lifetime of SF\(_5\)CF\(_3\) in the earth’s atmosphere, however, is determined primarily by the meterological conditions that transport it from the earth’s surface to the mesosphere, and not by processes that occur in that region. By comparison with data for SF\(_6\), a lifetime of ca. 1000 years for SF\(_5\)CF\(_3\) is estimated.

Original language	English
Pages (from-to)	697-703
Number of pages	7
Journal	Chemical Physics Letters
Volume	367
Issue number	5-6
DOIs	https://doi.org/10.1016/S0009-2614(02)01763-3
Publication status	Published - 1 Jan 2003

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title = "The vacuum-UV absorption spectrum of SF5CF3; implications for its lifetime in the earth{\textquoteright}s atmosphere",

abstract = "Using vacuum-UV radiation from a synchrotron source, the absorption spectrum of SF\(_5\)CF\(_3\) has been measured in the range 50-150 nm at a resolution of 0.12 nm. The cross section at the Lyman-\(\alpha\) wavelength of 121.6 nm is 1.5 \(\pm\) 0.3 x 10\(^{-17}\) cm\(^2\) molecule\(^{-1}\). The loss of SF\(_5\)CF\(_3\) on a molecular basis from the earth{\textquoteright}s atmosphere is dominated, not by photon-induced dissociation, but by electron attachment in the mesosphere above 60 km, yielding SF\(_5^-\). The lifetime of SF\(_5\)CF\(_3\) in the earth{\textquoteright}s atmosphere, however, is determined primarily by the meterological conditions that transport it from the earth{\textquoteright}s surface to the mesosphere, and not by processes that occur in that region. By comparison with data for SF\(_6\), a lifetime of ca. 1000 years for SF\(_5\)CF\(_3\) is estimated.",

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doi = "10.1016/S0009-2614(02)01763-3",

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AU - Kennedy, Richard

AU - Tuckett, Richard

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N2 - Using vacuum-UV radiation from a synchrotron source, the absorption spectrum of SF\(_5\)CF\(_3\) has been measured in the range 50-150 nm at a resolution of 0.12 nm. The cross section at the Lyman-\(\alpha\) wavelength of 121.6 nm is 1.5 \(\pm\) 0.3 x 10\(^{-17}\) cm\(^2\) molecule\(^{-1}\). The loss of SF\(_5\)CF\(_3\) on a molecular basis from the earth’s atmosphere is dominated, not by photon-induced dissociation, but by electron attachment in the mesosphere above 60 km, yielding SF\(_5^-\). The lifetime of SF\(_5\)CF\(_3\) in the earth’s atmosphere, however, is determined primarily by the meterological conditions that transport it from the earth’s surface to the mesosphere, and not by processes that occur in that region. By comparison with data for SF\(_6\), a lifetime of ca. 1000 years for SF\(_5\)CF\(_3\) is estimated.

AB - Using vacuum-UV radiation from a synchrotron source, the absorption spectrum of SF\(_5\)CF\(_3\) has been measured in the range 50-150 nm at a resolution of 0.12 nm. The cross section at the Lyman-\(\alpha\) wavelength of 121.6 nm is 1.5 \(\pm\) 0.3 x 10\(^{-17}\) cm\(^2\) molecule\(^{-1}\). The loss of SF\(_5\)CF\(_3\) on a molecular basis from the earth’s atmosphere is dominated, not by photon-induced dissociation, but by electron attachment in the mesosphere above 60 km, yielding SF\(_5^-\). The lifetime of SF\(_5\)CF\(_3\) in the earth’s atmosphere, however, is determined primarily by the meterological conditions that transport it from the earth’s surface to the mesosphere, and not by processes that occur in that region. By comparison with data for SF\(_6\), a lifetime of ca. 1000 years for SF\(_5\)CF\(_3\) is estimated.

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JO - Chemical Physics Letters

JF - Chemical Physics Letters

IS - 5-6

ER -

The vacuum-UV absorption spectrum of SF5CF3; implications for its lifetime in the earth’s atmosphere

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