Journal Articles by E. Mahieu


M. Zhou, et al.
Ground-based FTIR retrievals of SF6 on Reunion Island
Atmospheric Measurement Techniques, 11(2), 651-662, 2018; doi: 10.5194/amt-11-651-2018
SF6
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W. Steinbrecht, et al.
An update on ozone profile trends for the period 2000 to 2016
Atmospheric Chemistry and Physics, 17(17), 10675-10690, 2017; doi: 10.5194/acp-17-10675-2017
O3
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W. Bader, et al.
The recent increase of atmospheric methane from 10 years of ground-based NDACC FTIR observations since 2005
Atmospheric Chemistry and Physics, 17(3), 2255-2277, 2017; doi: 10.5194/acp-17-2255-2017
CH4 NDACC GEOS-Chem
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B. Lejeune, et al.
Optimized approach to retrieve information on atmospheric carbonyl sulfide (OCS) above the Jungfraujoch station and change in its abundance since 1995
Journal of Quantitative Spectroscopy and Radiative Transfer (Satellite Remote Sensing and Spectroscopy: Joint ACE-Odin Meeting, October 2015), 186, 81-95, 2017; doi: 10.1016/j.jqsrt.2016.06.001
GCMS FTIR spectroscopy Jungfraujoch ACE-FTS GCMS OCS
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E. Mahieu, et al.
Retrieval of HCFC-142b (CH3CClF2) from ground-based high-resolution infrared solar spectra: Atmospheric increase since 1989 and comparison with surface and satellite measurements
Journal of Quantitative Spectroscopy and Radiative Transfer (Satellite Remote Sensing and Spectroscopy: Joint ACE-Odin Meeting, October 2015), 186, 96-105, 2017; doi: 10.1016/j.jqsrt.2016.03.017
HCFC-142b CH3CClF2 fourier transform spectroscopy infra-red Jungfraujoch NDACC ACE-FTS AGAGE
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M. P. Chipperfield, et al.
Model sensitivity studies of the decrease in atmospheric carbon tetrachloride
Atmospheric Chemistry and Physics, 16(24), 15741-15754, 2016; doi: 10.5194/acp-16-15741-2016
CCl4
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N. R. P. Harris, et al.
Past changes in the vertical distribution of ozone - Part 3: Analysis and interpretation of trends
Atmospheric Chemistry and Physics, 15(17), 9965-9982, 2015; doi: 10.5194/acp-15-9965-2015
O3 18OO2 O18OO O17OO
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B. Franco, et al.
Retrieval of ethane from ground-based FTIR solar spectra using improved spectroscopy: Recent burden increase above Jungfraujoch
Journal of Quantitative Spectroscopy and Radiative Transfer, 160, 36-49, 2015; doi: http://dx.doi.org/10.1016/j.jqsrt.2015.03.017,
Shale gas C2H6
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W. Bader, et al.
Long-term evolution and seasonal modulation of methanol above Jungfraujoch (46.5N, 8.0E): optimisation of the retrieval strategy, comparison with model simulations and independent observations
Atmospheric Measurement Techniques, 7(11), 3861-3872, 2014; doi: 10.5194/amt-7-3861-2014
CH3OH
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E. Mahieu, et al.
Spectrometric monitoring of atmospheric carbon tetrafluoride (CF4) above the Jungfraujoch station since 1989: evidence of continued increase but at a slowing rate
Atmospheric Measurement Techniques, 7(1), 333-344, 2014; doi: 10.5194/amt-7-333-2014
CF4
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C. Risi, et al.
Process-evaluation of tropospheric humidity simulated by general circulation models using water vapor isotopologues: 1. Comparison between models and observations
Journal of Geophysical Research: Atmospheres, 117(5), D05303, 2012; doi: 10.1029/2011JD016621
H2O H217O HDO H218O Cloud physics Troposphere: composition Global climate models general circulation models process-based evaluation relative humidity water isotopes
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P. Duchatelet, et al.
Hydrogen fluoride total and partial column time series above the Jungfraujoch from long-term FTIR measurements: Impact of the line-shape model, characterization of the error budget and seasonal cycle, and comparison with satellite and model data
Journal of Geophysical Research: Atmospheres, 115(22), D22306, 2010; doi: 10.1029/2010JD014677
HF Middle atmosphere Evolution of the atmosphere hydrogen fluoride FTIR spectra line-shape model seasonal cycle satellite data CTM data
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C. P. Rinsland, et al.
First measurements of the HCFC-142b trend from atmospheric chemistry experiment (ACE) solar occultation spectra
Journal of Quantitative Spectroscopy and Radiative Transfer, 110(18), 2127-2134, 2009; doi: http://dx.doi.org/10.1016/j.jqsrt.2009.05.011,
Ozone depletion C2Cl3F2 CH3CClF2
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Q. Li, et al.
What drives the observed variability of HCN in the troposphere and lower stratosphere?
Atmospheric Chemistry and Physics, 9(21), 8531-8543, 2009; doi: 10.5194/acp-9-8531-2009
HCN
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P. Duchatelet, et al.
An approach to retrieve information on the carbonyl fluoride (COF2) vertical distributions above Jungfraujoch by FTIR multi-spectrum multi-window fitting
Atmospheric Chemistry and Physics, 9(22), 9027-9042, 2009; doi: 10.5194/acp-9-9027-2009
COF2
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C. P. Rinsland, et al.
Trend of lower stratospheric methane (CH4) from atmospheric chemistry experiment (ACE) and atmospheric trace molecule spectroscopy (ATMOS) measurements
Journal of Quantitative Spectroscopy and Radiative Transfer, 110(13), 1066-1071, 2009; doi: http://dx.doi.org/10.1016/j.jqsrt.2009.03.024,
Trends CH4 CH3D 13CH4
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E. Dupuy, et al.
Validation of ozone measurements from the Atmospheric Chemistry Experiment (ACE)
Atmospheric Chemistry and Physics, 9(2), 287-343, 2009; doi: 10.5194/acp-9-287-2009
O3 18OO2 O18OO O17OO
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C. P. Rinsland, et al.
Measurements of long-term changes in atmospheric OCS (carbonyl sulfide) from infrared solar observations
Journal of Quantitative Spectroscopy and Radiative Transfer, 109(16), 2679-2686, 2008; doi: http://dx.doi.org/10.1016/j.jqsrt.2008.07.008,
OCS OC34S O13CS Infrared spectroscopy
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E. Mahieu, et al.
Validation of ACE-FTS v2.2 measurements of HCl, HF, CCl3F and CCl2F2 using space-, balloon- and ground-based instrument observations
Atmospheric Chemistry and Physics, 8(20), 6199-6221, 2008; doi: 10.5194/acp-8-6199-2008
HCl HF CCl3F CCl2F2
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K. Strong, et al.
Validation of ACE-FTS N2O measurements
Atmospheric Chemistry and Physics, 8(16), 4759-4786, 2008; doi: 10.5194/acp-8-4759-2008
N2O 15NNO N217O N218O N15NO
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C. Senten, et al.
Technical Note: New ground-based FTIR measurements at Ile de La Reunion: observations, error analysis, and comparisons with independent data
Atmospheric Chemistry and Physics, 8(13), 3483-3508, 2008; doi: 10.5194/acp-8-3483-2008
O3 18OO2 O18OO O17OO CH4 CH3D 13CH4 N2O 15NNO N15NO N218O N217O HNO3 HCl HF CO 13CO C18O C17O C2H6
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M. A. Wolff, et al.
Validation of HNO3, ClONO2, and N2O5 from the Atmospheric Chemistry Experiment Fourier Transform Spectrometer (ACE-FTS)
Atmospheric Chemistry and Physics, 8(13), 3529-3562, 2008; doi: 10.5194/acp-8-3529-2008
HNO3 N2O5 ClONO2
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M. D. Mazière, et al.
Validation of ACE-FTS v2.2 methane profiles from the upper troposphere to the lower mesosphere
Atmospheric Chemistry and Physics, 8(9), 2421-2435, 2008; doi: 10.5194/acp-8-2421-2008
CH4 13CH4 CH3D
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C. Clerbaux, et al.
CO measurements from the ACE-FTS satellite instrument: data analysis and validation using ground-based, airborne and spaceborne observations
Atmospheric Chemistry and Physics, 8(9), 2569-2594, 2008; doi: 10.5194/acp-8-2569-2008
CO 13CO C17O C18O
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D. Y. Wang, et al.
Validation of MIPAS HNO3 operational data
Atmospheric Chemistry and Physics, 7(18), 4905-4934, 2007; doi: 10.5194/acp-7-4905-2007
HNO3
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C. P. Rinsland, et al.
Spectroscopic detection of COClF in the tropical and mid-latitude lower stratosphere
Journal of Quantitative Spectroscopy and Radiative Transfer, 105(3), 467-475, 2007; doi: http://dx.doi.org/10.1016/j.jqsrt.2006.11.013,
Stratospheric fluorine chemistry COClF
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M. Höpfner, et al.
Validation of MIPAS ClONO2 measurements
Atmospheric Chemistry and Physics, 7(1), 257-281, 2007; doi: 10.5194/acp-7-257-2007
ClONO2
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C. P. Rinsland, et al.
First space-based observations of formic acid (HCOOH): Atmospheric Chemistry Experiment austral spring 2004 and 2005 Southern Hemisphere tropical-mid-latitude upper tropospheric measurements
Geophysical Research Letters, 33(23), L23804, 2006; doi: 10.1029/2006GL027128
HCOOH Evolution of the atmosphere Pollution: urban regional Troposphere Remote sensing pollution biomass burning tropical fires
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R. Nassar, et al.
A global inventory of stratospheric chlorine in 2004
Journal of Geophysical Research: Atmospheres, 111(22), D22312, 2006; doi: 10.1029/2006JD007073
HCl CCl3F CHClF2 CCl2F2 ClONO2 COClF CH3Cl CCl4 C2Cl3F2 C2Cl3F3 ClO Middle atmosphere Atmosphere Impacts of global change ACE-FTS chlorine stratosphere
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C. P. Rinsland, et al.
Long-term stratospheric carbon tetrafluoride (CF4) increase inferred from 1985–2004 infrared space-based solar occultation measurements
Geophysical Research Letters, 33(2), L02808, 2006; doi: 10.1029/2005GL024709
CF4 Constituent sources sinks Evolution of the atmosphere Middle atmosphere Remote sensing
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P. F. Bernath, et al.
Atmospheric Chemistry Experiment (ACE): Mission overview
Geophysical Research Letters, 32(15), 1-5, 2005; doi: 10.1029/2005GL022386
Troposphere: composition
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C. P. Rinsland, et al.
Trends of HF, HCl, CCl2F2, CCl3F, CHClF2 (HCFC-22), and SF6 in the lower stratosphere from Atmospheric Chemistry Experiment (ACE) and Atmospheric Trace Molecule Spectroscopy (ATMOS) measurements near 30°N latitude
Geophysical Research Letters, 32(16), L16S03, 2005; doi: 10.1029/2005GL022415
HF HCl SF6 CCl2F2 CHClF2 CCl3F Atmospheric Composition Structure Evolution of the atmosphere Middle atmosphere
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E. Mahieu, et al.
Comparisons between ACE-FTS and ground-based measurements of stratospheric HCl and ClONO2 loadings at northern latitudes
Geophysical Research Letters, 32(15), L15S08, 2005; doi: 10.1029/2005GL022396
HCl ClONO2 Evolution of the atmosphere Middle atmosphere
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