Accuracy of profile retrievals from mm-wave spectra of ClO and N2O

Louisa K. Emmons; R. L. de Zafra

Accuracy of profile retrievals from mm-wave spectra of ClO and N₂O

Louisa K. Emmons, R. L. de Zafra

Atmospheric Composition Remote Sensing and Prediction

Stony Brook University

Research output: Abstract › Paper › peer-review

1 Scopus citations

Abstract

The retrieval accuracy of a Chahine-Twomey retrieval algorithm acting on pressure-broadened mm-wave rotational spectra measured with ground-based equipment, is explored for two radically different profiles, the first representing a two-layered Antarctic ClO distribution having a maximum mixing ratio of approximately 1.5 ppbv and no tropospheric component, and the second representing a typical polar N₂O profile, with a tropospheric mixing ratio of 300 ppbv dropping rapidly in the low to mid-stratosphere. The uncertainties or errors due to intrinsic retrieval limits, practical levels of random noise, uncertainties in input parameters (atmospheric temperature and pressure profiles, pressure broadening), and in calibration of instrument sensitivity are all explored, and an overall error budget established as a function of altitude.

Original language	English
Pages	1684-1686
Number of pages	3
State	Published - 1994
Event	Proceedings of the 1994 International Geoscience and Remote Sensing Symposium. Vol 4 (of 4) - Pasadena, CA, USA Duration: Aug 8 1994 → Aug 12 1994

Conference

Conference	Proceedings of the 1994 International Geoscience and Remote Sensing Symposium. Vol 4 (of 4)
City	Pasadena, CA, USA
Period	08/8/94 → 08/12/94

Cite this

@conference{525a3235f96c49bb90a57a59363ca297,

title = "Accuracy of profile retrievals from mm-wave spectra of ClO and N2O",

abstract = "The retrieval accuracy of a Chahine-Twomey retrieval algorithm acting on pressure-broadened mm-wave rotational spectra measured with ground-based equipment, is explored for two radically different profiles, the first representing a two-layered Antarctic ClO distribution having a maximum mixing ratio of approximately 1.5 ppbv and no tropospheric component, and the second representing a typical polar N2O profile, with a tropospheric mixing ratio of 300 ppbv dropping rapidly in the low to mid-stratosphere. The uncertainties or errors due to intrinsic retrieval limits, practical levels of random noise, uncertainties in input parameters (atmospheric temperature and pressure profiles, pressure broadening), and in calibration of instrument sensitivity are all explored, and an overall error budget established as a function of altitude.",

author = "Emmons, \{Louisa K.\} and \{de Zafra\}, \{R. L.\}",

year = "1994",

language = "English",

pages = "1684--1686",

note = "Proceedings of the 1994 International Geoscience and Remote Sensing Symposium. Vol 4 (of 4) ; Conference date: 08-08-1994 Through 12-08-1994",

}

TY - CONF

T1 - Accuracy of profile retrievals from mm-wave spectra of ClO and N2O

AU - Emmons, Louisa K.

AU - de Zafra, R. L.

PY - 1994

Y1 - 1994

N2 - The retrieval accuracy of a Chahine-Twomey retrieval algorithm acting on pressure-broadened mm-wave rotational spectra measured with ground-based equipment, is explored for two radically different profiles, the first representing a two-layered Antarctic ClO distribution having a maximum mixing ratio of approximately 1.5 ppbv and no tropospheric component, and the second representing a typical polar N2O profile, with a tropospheric mixing ratio of 300 ppbv dropping rapidly in the low to mid-stratosphere. The uncertainties or errors due to intrinsic retrieval limits, practical levels of random noise, uncertainties in input parameters (atmospheric temperature and pressure profiles, pressure broadening), and in calibration of instrument sensitivity are all explored, and an overall error budget established as a function of altitude.

AB - The retrieval accuracy of a Chahine-Twomey retrieval algorithm acting on pressure-broadened mm-wave rotational spectra measured with ground-based equipment, is explored for two radically different profiles, the first representing a two-layered Antarctic ClO distribution having a maximum mixing ratio of approximately 1.5 ppbv and no tropospheric component, and the second representing a typical polar N2O profile, with a tropospheric mixing ratio of 300 ppbv dropping rapidly in the low to mid-stratosphere. The uncertainties or errors due to intrinsic retrieval limits, practical levels of random noise, uncertainties in input parameters (atmospheric temperature and pressure profiles, pressure broadening), and in calibration of instrument sensitivity are all explored, and an overall error budget established as a function of altitude.

UR - https://www.scopus.com/pages/publications/0028752250

M3 - Paper

AN - SCOPUS:0028752250

SP - 1684

EP - 1686

T2 - Proceedings of the 1994 International Geoscience and Remote Sensing Symposium. Vol 4 (of 4)

Y2 - 8 August 1994 through 12 August 1994

ER -

Accuracy of profile retrievals from mm-wave spectra of ClO and N₂O

Abstract

Conference

Other files and links

Fingerprint

Cite this