Clara Stoeffler scite author profile

Clara Stoeffler

4Publications

41Citation Statements Received

88Citation Statements Given

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128

Affiliations

Molecular and Atmospheric Spectrometry Group, University of Reims Champagne-Ardenne

Publications

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Intercomparison of in situ water vapor balloon-borne measurements from Pico-SDLA H<sub>2</sub>O and FLASH-B in the tropical UTLS

et al. 2016

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Abstract. In this paper we compare water vapor mixing ratio measurements from two quasi-parallel flights of the Pico-SDLA H 2 O and FLASH-B hygrometers. The measurements were made on 10 February 2013 and 13 March 2012, respectively, in the tropics near Bauru, São Paulo state, Brazil during an intense convective period. Both flights were performed as part of a French scientific project, TRO-Pico, to study the impact of the deep-convection overshoot on the water budget. Only a few instruments that permit the frequent sounding of stratospheric water vapor can be flown within smallvolume weather balloons. Technical difficulties preclude the accurate measurement of stratospheric water vapor with conventional in situ techniques. The instruments described here are simple and lightweight, which permits their low-cost deployment by non-specialists aboard a small weather balloon. We obtain mixing ratio retrievals which agree above the coldpoint tropopause to within 1.9 and 0.5 % for the first and second flights, respectively. This level of agreement for balloonborne measured stratospheric water mixing ratio constitutes one of the best agreement reported in the literature. Because both instruments show similar profiles within their combined uncertainties, we conclude that the Pico-SDLA H 2 O and FLASH-B data sets are mutually consistent.

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Kinetic study of the reaction of chlorine atoms with hydroxyacetone in gas-phase

Stoeffler¹,

Joly²,

Durry³

et al. 2013

Chemical Physics Letters

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Intercomparison of in situ water vapor balloon-borne measurements from Pico-SDLA H<sub>2</sub>O and FLASH-B in the tropical UTLS

Ghysels¹,

Rivière²,

Khaykin³

et al. 2015

Preprint

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Abstract. In this paper we compare water vapor mixing ratio measurements from two quasi-parallel flights of the Pico-SDLA H2O and FLASH-B hygrometers. The measurements were made on 10 February 2013 and 13 March 2012, respectively, in the tropics near Bauru, Sao Paulo St., Brazil during an intense convective period. Both flights were performed as part of a French scientific project, TRO-Pico, to study the impact of the deep-convection overshoot on the water budget. Only a few instruments that permit the frequent sounding of stratospheric water vapor can be flown within a small volume weather balloons. Technical difficulties preclude the accurate measurement of stratospheric water vapor with conventional in situ techniques. The instruments described here are simple and lightweight, which permits their low-cost deployment by non-specialists aboard a small weather balloon. We obtain mixing ratio retrievals which agree above the cold-point tropopause to within 1.9 and 0.5 % for the first and second flights, respectively. This level of agreement for measured stratospheric water mixing ratio is among the best ever reported in the literature. Because both instruments show similar profiles within their combined uncertainties, we conclude that the Pico-SDLA H2O and FLASH-B datasets are mutually consistent.

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Photoacoustic gas sensing with a commercial external cavity-quantum cascade laser at 10.5μm

Mammez

Stoeffler

Cousin

et al. 2013

Infrared Physics & Technology

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Clara Stoeffler

Intercomparison of in situ water vapor balloon-borne measurements from Pico-SDLA H<sub>2</sub>O and FLASH-B in the tropical UTLS

Kinetic study of the reaction of chlorine atoms with hydroxyacetone in gas-phase

Intercomparison of in situ water vapor balloon-borne measurements from Pico-SDLA H<sub>2</sub>O and FLASH-B in the tropical UTLS

Photoacoustic gas sensing with a commercial external cavity-quantum cascade laser at 10.5μm

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Clara Stoeffler

Intercomparison of in situ water vapor balloon-borne measurements from Pico-SDLA H&lt;sub&gt;2&lt;/sub&gt;O and FLASH-B in the tropical UTLS

Kinetic study of the reaction of chlorine atoms with hydroxyacetone in gas-phase

Intercomparison of in situ water vapor balloon-borne measurements from Pico-SDLA H&lt;sub&gt;2&lt;/sub&gt;O and FLASH-B in the tropical UTLS

Photoacoustic gas sensing with a commercial external cavity-quantum cascade laser at 10.5μm

Contact Info

Product

Resources

About

Intercomparison of in situ water vapor balloon-borne measurements from Pico-SDLA H<sub>2</sub>O and FLASH-B in the tropical UTLS

Intercomparison of in situ water vapor balloon-borne measurements from Pico-SDLA H<sub>2</sub>O and FLASH-B in the tropical UTLS