Minor constituent concentrations measured from a high altitude aircraft using high resolution far-infrared Fourier transform spectroscopy.

Lancaster Environment Centre

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https://doi.org/10.1023/A:1006316026239
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Keywords

far-infrared emission spectroscopy - high altitude aircraft - minor atmospheric constituents - stratospheric ozone chemistry - airborne polar experiment

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Minor constituent concentrations measured from a high altitude aircraft using high resolution far-infrared Fourier transform spectroscopy. / Carli, B.; Ade, P.; Carlotti, M. et al.
In: Journal of Atmospheric Chemistry, Vol. 35, No. 3, 03.2000, p. 273-293.

Research output: Contribution to Journal/Magazine › Journal article › peer-review

Harvard

Carli, B, Ade, P, Carlotti, M, Cortesi, U, Gignoli, A, Hamilton, P, Lanfranchi, M, Lee, C, Mackenzie, AR & Phillips, A 2000, 'Minor constituent concentrations measured from a high altitude aircraft using high resolution far-infrared Fourier transform spectroscopy.', Journal of Atmospheric Chemistry, vol. 35, no. 3, pp. 273-293. https://doi.org/10.1023/A:1006316026239

APA

Carli, B., Ade, P., Carlotti, M., Cortesi, U., Gignoli, A., Hamilton, P., Lanfranchi, M., Lee, C., Mackenzie, A. R., & Phillips, A. (2000). Minor constituent concentrations measured from a high altitude aircraft using high resolution far-infrared Fourier transform spectroscopy. Journal of Atmospheric Chemistry, 35(3), 273-293. https://doi.org/10.1023/A:1006316026239

Vancouver

Carli B, Ade P, Carlotti M, Cortesi U, Gignoli A, Hamilton P et al. Minor constituent concentrations measured from a high altitude aircraft using high resolution far-infrared Fourier transform spectroscopy. Journal of Atmospheric Chemistry. 2000 Mar;35(3):273-293. doi: 10.1023/A:1006316026239

Author

Carli, B. ; Ade, P. ; Carlotti, M. et al. / Minor constituent concentrations measured from a high altitude aircraft using high resolution far-infrared Fourier transform spectroscopy. In: Journal of Atmospheric Chemistry. 2000 ; Vol. 35, No. 3. pp. 273-293.

Bibtex

@article{711112868d5544c7a705601c110e0cb4,

title = "Minor constituent concentrations measured from a high altitude aircraft using high resolution far-infrared Fourier transform spectroscopy.",

abstract = "Far-infrared emission spectroscopy has beendemonstrated to be a valuable method for remotesensing of trace species in the stratosphere, with theability to simultaneously detect a number of keychemical species. SAFIRE-A is a new far-infraredFourier Transform (FT) spectrometer which has beenspecifically designed to operate on board of a highaltitude aircraft in the lower stratosphere and uppertroposphere regions where relatively few remotesensing measurements have been made. Using newtechnology, the sensitivity of the FT spectrometermethod has been substantially improved for the longwavelength region. Results are reported formeasurements of O3, HNO3 and N2O at 17and 19 km using a detection window near 23 cm-1.Geographical and altitude variability of the volumemixing ratio of these constituents and their relativecorrelation are discussed. Ozone measurements agreewell with in situ measurements, except in regions ofstrong stirring and mixing associated with deformationof the northern vortex edge. Whilst SAFIREmeasurements of trace gases do not capture all of thelocal variability seen by rapid in-situ techniques,they can indicate horizontal variability close to, butnot intercepted by, the aircraft's flight path. Apossible detection of ClO at the low background levelsexpected outside the polar vortex is also reported.",

keywords = "far-infrared emission spectroscopy - high altitude aircraft - minor atmospheric constituents - stratospheric ozone chemistry - airborne polar experiment",

author = "B. Carli and P. Ade and M. Carlotti and U. Cortesi and A. Gignoli and P. Hamilton and M. Lanfranchi and C. Lee and Mackenzie, {A. Robert} and A. Phillips",

year = "2000",

month = mar,

doi = "10.1023/A:1006316026239",

language = "English",

volume = "35",

pages = "273--293",

journal = "Journal of Atmospheric Chemistry",

issn = "0167-7764",

publisher = "Springer Netherlands",

number = "3",

}

RIS

TY - JOUR

T1 - Minor constituent concentrations measured from a high altitude aircraft using high resolution far-infrared Fourier transform spectroscopy.

AU - Carli, B.

AU - Ade, P.

AU - Carlotti, M.

AU - Cortesi, U.

AU - Gignoli, A.

AU - Hamilton, P.

AU - Lanfranchi, M.

AU - Lee, C.

AU - Mackenzie, A. Robert

AU - Phillips, A.

PY - 2000/3

Y1 - 2000/3

N2 - Far-infrared emission spectroscopy has beendemonstrated to be a valuable method for remotesensing of trace species in the stratosphere, with theability to simultaneously detect a number of keychemical species. SAFIRE-A is a new far-infraredFourier Transform (FT) spectrometer which has beenspecifically designed to operate on board of a highaltitude aircraft in the lower stratosphere and uppertroposphere regions where relatively few remotesensing measurements have been made. Using newtechnology, the sensitivity of the FT spectrometermethod has been substantially improved for the longwavelength region. Results are reported formeasurements of O3, HNO3 and N2O at 17and 19 km using a detection window near 23 cm-1.Geographical and altitude variability of the volumemixing ratio of these constituents and their relativecorrelation are discussed. Ozone measurements agreewell with in situ measurements, except in regions ofstrong stirring and mixing associated with deformationof the northern vortex edge. Whilst SAFIREmeasurements of trace gases do not capture all of thelocal variability seen by rapid in-situ techniques,they can indicate horizontal variability close to, butnot intercepted by, the aircraft's flight path. Apossible detection of ClO at the low background levelsexpected outside the polar vortex is also reported.

AB - Far-infrared emission spectroscopy has beendemonstrated to be a valuable method for remotesensing of trace species in the stratosphere, with theability to simultaneously detect a number of keychemical species. SAFIRE-A is a new far-infraredFourier Transform (FT) spectrometer which has beenspecifically designed to operate on board of a highaltitude aircraft in the lower stratosphere and uppertroposphere regions where relatively few remotesensing measurements have been made. Using newtechnology, the sensitivity of the FT spectrometermethod has been substantially improved for the longwavelength region. Results are reported formeasurements of O3, HNO3 and N2O at 17and 19 km using a detection window near 23 cm-1.Geographical and altitude variability of the volumemixing ratio of these constituents and their relativecorrelation are discussed. Ozone measurements agreewell with in situ measurements, except in regions ofstrong stirring and mixing associated with deformationof the northern vortex edge. Whilst SAFIREmeasurements of trace gases do not capture all of thelocal variability seen by rapid in-situ techniques,they can indicate horizontal variability close to, butnot intercepted by, the aircraft's flight path. Apossible detection of ClO at the low background levelsexpected outside the polar vortex is also reported.

KW - far-infrared emission spectroscopy - high altitude aircraft - minor atmospheric constituents - stratospheric ozone chemistry - airborne polar experiment

U2 - 10.1023/A:1006316026239

DO - 10.1023/A:1006316026239

M3 - Journal article

VL - 35

SP - 273

EP - 293

JO - Journal of Atmospheric Chemistry

JF - Journal of Atmospheric Chemistry

SN - 0167-7764

IS - 3

ER -

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