Composition analysis of liquid particles in the Arctic stratosphere under synoptic conditions

Composition analysis of liquid particles in the Arctic stratosphere under synoptic conditions

Synoptic scale polar stratospheric clouds (PSCs) that formed without the presence of mountain lee waves were observed in early December 2002 from Kiruna/Sweden using balloon-borne instruments. The physical, chemical, and optical properties of the particles were measured. Within the PSC solid particl...

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Main Authors: C. Weisser, K. Mauersberger, J. Schreiner, N. Larsen, F. Cairo, A. Adriani, J. Ovarlez, T. Deshler
Format: Article
Language:English
Published: Copernicus Publications 2006-01-01
Series:Atmospheric Chemistry and Physics
Online Access:http://www.atmos-chem-phys.net/6/689/2006/acp-6-689-2006.pdf
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spelling doaj-5e042be04c0243b9825e74c75d3c40a12020-11-25T00:00:33ZengCopernicus PublicationsAtmospheric Chemistry and Physics1680-73161680-73242006-01-0163689696Composition analysis of liquid particles in the Arctic stratosphere under synoptic conditionsC. WeisserK. MauersbergerJ. SchreinerN. LarsenF. CairoA. AdrianiJ. OvarlezT. DeshlerSynoptic scale polar stratospheric clouds (PSCs) that formed without the presence of mountain lee waves were observed in early December 2002 from Kiruna/Sweden using balloon-borne instruments. The physical, chemical, and optical properties of the particles were measured. Within the PSC solid particles existed whenever the temperature was below the equilibrium temperature for nitric acid trihydrate and liquid particles appeared when the temperature fell below an even lower threshold about 3 K above the frost point with solid particles still present. The correlation of liquid supercooled ternary solution aerosols with local temperatures is a pronounced feature observed during this flight; average molar ratios H<sub>2</sub>O/HNO<sub>3</sub> were somewhat higher than predicted by models. In addition HCl has been measured for the first time in liquid aerosols. The chlorine isotope signature served as a unique tool to identify unambiguously HCl dissolved in STS particles. Within a narrow temperature range of about three degrees above the frost point, the measured average amount of HCl in liquid particles is below 1 weight%.http://www.atmos-chem-phys.net/6/689/2006/acp-6-689-2006.pdf
collection DOAJ
language English
format Article
sources DOAJ
author C. Weisser
K. Mauersberger
J. Schreiner
N. Larsen
F. Cairo
A. Adriani
J. Ovarlez
T. Deshler
spellingShingle C. Weisser
K. Mauersberger
J. Schreiner
N. Larsen
F. Cairo
A. Adriani
J. Ovarlez
T. Deshler
Composition analysis of liquid particles in the Arctic stratosphere under synoptic conditions
Atmospheric Chemistry and Physics
author_facet C. Weisser
K. Mauersberger
J. Schreiner
N. Larsen
F. Cairo
A. Adriani
J. Ovarlez
T. Deshler
author_sort C. Weisser
title Composition analysis of liquid particles in the Arctic stratosphere under synoptic conditions
title_short Composition analysis of liquid particles in the Arctic stratosphere under synoptic conditions
title_full Composition analysis of liquid particles in the Arctic stratosphere under synoptic conditions
title_fullStr Composition analysis of liquid particles in the Arctic stratosphere under synoptic conditions
title_full_unstemmed Composition analysis of liquid particles in the Arctic stratosphere under synoptic conditions
title_sort composition analysis of liquid particles in the arctic stratosphere under synoptic conditions
publisher Copernicus Publications
series Atmospheric Chemistry and Physics
issn 1680-7316
1680-7324
publishDate 2006-01-01
description Synoptic scale polar stratospheric clouds (PSCs) that formed without the presence of mountain lee waves were observed in early December 2002 from Kiruna/Sweden using balloon-borne instruments. The physical, chemical, and optical properties of the particles were measured. Within the PSC solid particles existed whenever the temperature was below the equilibrium temperature for nitric acid trihydrate and liquid particles appeared when the temperature fell below an even lower threshold about 3 K above the frost point with solid particles still present. The correlation of liquid supercooled ternary solution aerosols with local temperatures is a pronounced feature observed during this flight; average molar ratios H<sub>2</sub>O/HNO<sub>3</sub> were somewhat higher than predicted by models. In addition HCl has been measured for the first time in liquid aerosols. The chlorine isotope signature served as a unique tool to identify unambiguously HCl dissolved in STS particles. Within a narrow temperature range of about three degrees above the frost point, the measured average amount of HCl in liquid particles is below 1 weight%.
url http://www.atmos-chem-phys.net/6/689/2006/acp-6-689-2006.pdf
work_keys_str_mv AT cweisser compositionanalysisofliquidparticlesinthearcticstratosphereundersynopticconditions
AT kmauersberger compositionanalysisofliquidparticlesinthearcticstratosphereundersynopticconditions
AT jschreiner compositionanalysisofliquidparticlesinthearcticstratosphereundersynopticconditions
AT nlarsen compositionanalysisofliquidparticlesinthearcticstratosphereundersynopticconditions
AT fcairo compositionanalysisofliquidparticlesinthearcticstratosphereundersynopticconditions
AT aadriani compositionanalysisofliquidparticlesinthearcticstratosphereundersynopticconditions
AT jovarlez compositionanalysisofliquidparticlesinthearcticstratosphereundersynopticconditions
AT tdeshler compositionanalysisofliquidparticlesinthearcticstratosphereundersynopticconditions
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