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Index
MIPAS Data Formats Products
Records
2 MDSR per MDS 1 forward sweep 1 reverse sweep
2 MDSRs per MDS 1 forward sweep 1 reverse sweep
LOS calibration GADS
Spectral Lines MDS
P T Retrieval MW ADS
VMR Retrieval Parameters GADS
P t Retrieval GADS
Framework Parameters GADS
Processing Parameters GADS
Inverse LOS VCM matrices MDS
General GADS
Occupation matrices for vmr#1 retrieval MDS
MDS2 -- 1 mdsr forward sweep 1 mdsr reverse
Occupation matrices for p T retrieval MDS
General GADS
Priority of p T retrieval occupation matices
P T occupation matrices ADS
MIP_NLE_2P SPH
Summary Quality ADS
Instrument and Processing Parameters ADS
Microwindows occupation matrices for p T and trace gas retrievals
Scan information MDS
Level 2 product SPH
MDS1 -- 1 mdsr forward sweep 1 mdsr reverse sweep
H2O Target Species MDS
P T and Height Correction Profiles MDS
Continuum Contribution and Radiance Offset MDS
Structure ADS
Summary Quality ADS
Residual Spectra mean values and standard deviation data ADS
PCD Information of Individual Scans ADS
Instrument and Processing Parameters ADS
Microwindows Occupation Matrices ADS
Scan Information MDS
1 MDSR per MDS
Scan Geolocation ADS
Mipas Level 1B SPH
Calibrated Spectra MDS
Structure ADS
Summary Quality ADS
Offset Calibration ADS
Scan Information ADS
Geolocation ADS (LADS)
Gain Calibration ADS #2
Gain Calibration ADS #1
Level 0 SPH
DSD#1 for MDS containing VMR retrieval microwindows data
DSD for MDS containing p T retrieval microwindows data
VMR #1 retrieval microwindows ADS
P T retrieval microwindows ADS
1 MDSR per MDS
VMR profiles MDS (same format as for MIP_IG2_AX)
Temperature profiles MDS (same format as for MIP_IG2_AX)
Pressure profile MDS (same format as for MIP_IG2_AX)
P T continuum profiles MDS (same format as for MIP_IG2_AX)
GADS General (same format as for MIP_IG2_AX)
Level 0 MDSR
Values of unknown parameters MDS
Computed spectra MDS
Jacobian matrices MDS
General data
Data depending on occupation matrix location ADS
Microwindow grouping data ADS
LUTs for p T retrieval microwindows MDS
GADS General
P T retrieval microwindows ADS
ILS Calibration GADS
Auxilliary Products
MIP_MW1_AX: Level 1B Microwindow dictionary
MIP_IG2_AX: Initial Guess Profile data
MIP_FM2_AX: Forward Calculation Results
MIP_CS2_AX: Cross Sections Lookup Table
MIP_CS1_AX: MIPAS ILS and Spectral calibration
MIP_CO1_AX: MIPAS offset validation
MIP_CL1_AX: Line of sight calibration
MIP_CG1_AX: MIPAS Gain calibration
MIP_SP2_AX: Spectroscopic data
MIP_PS2_AX: Level 2 Processing Parameters
MIP_PS1_AX: Level 1B Processing Parameters
MIP_PI2_AX: A Priori Pointing Information
MIP_OM2_AX: Microwindow Occupation Matrix
MIP_MW2_AX: Level 2 Microwindows data
MIP_CA1_AX: Instrument characterization data
Level 0 Products
MIP_RW__0P: MIPAS Raw Data and SPE Self Test Mode
MIP_NL__0P: MIPAS Nominal Level 0
MIP_LS__0P: MIPAS Line of Sight (LOS) Level 0
Level 1 Products
MIP_NL__1P: MIPAS Geolocated and Calibrated Spectra
Level 2 Products
MIP_NLE_2P: MIPAS Extracted Temperature , Pressure and Atmospheric Constituents Profiles
MIP_NL__2P: MIPAS Temperature , Pressure and Atmospheric Constituents Profiles
Glossary
References
Glossaries of technical terms
Level 2 processing
Pointing
Miscellaneous hardware and optical terms
Spectrometry and radiometry
Data Processing
Alphabetical index of technical terms
Frequently Asked Questions
The MIPAS Instrument
Inflight performance verification
Instrument characteristics and performances
Preflight characteristics and expected performances
Subsystem description
Payload description and position on the platform
MIPAS Products and Algorithms
Data handling cookbook
Characterisation and calibration
Calibration
Latency, throughput and data volume
Auxiliary products
Level 2
Instrument specific topics
Algorithms and products
Level 2 products and algorithms
Products
The retrieval modules
Computation of cross-sections
Level 1b products and algorithms
Products
Calculate ILS Retrieval function
Level 1a intermediary products and algorithms
Product evolution history
Definition and convention
MIPAS Products User Guide
Image gallery
Further reading
How to use MIPAS data?
Summary of applications and products
Peculiarities of MIPAS
Geophysical coverage
Principles of measurement
Scientific background
MIPAS Product Handbook
Services
Site Map
Frequently asked questions
Glossary
Credits
Terms of use
Contact us
Search


 
 
 


1.3 Further reading

References

Papers and documents

Ref 1.1
DASA, “In-Flight Calibration Plan, PO-PL-DAS-MP-0031, Issue 2A, June 1997.

Ref 1.2
Bell R. J., “Introductory Fourier Transform Spectroscopy, Academic Press (1972)

Ref 1.3
Blom C.E. , M. Hopfner and C. Weddington, "Correction of Phase Anomalies of Atmopshjeric Emission Spectra by the Double Differencing Method", Appl. Opt., 35, (2649), 1996

Ref 1.4
Blom C.E. , H. Fischer, N. Glatthor, T. Guide, M. Hopfner and Ch. Piesch, "Spatial and Temporal variation of CIONO2, HNO3 and O3 in Arctic Winter 1992/93 as obtained by Airborne Infrared Emission Spectroscopy", J. Geophys. Res., 100, (9101), 1995.

Ref 1.5
Blom C. E., H. Fischer, N. Glatthor, T. Gulde and H. Hopfner, "Airborne Measurements during the European Arctic Stratospheric Ozone Experiment. Column Amounts of HNO3 and O3 derived from FTIR Emission Sounding", Geophys Res. Lett., 21, 1351, 1994.

Ref 1.6
Bomem, "Algorithm Technical Baseline Document for MIPAS Level 1b Processing", PO-TN-BOM-GS-0012, September 1998.

Ref 1.7
Bomem, “MIPAS Detector Non-linearity Correction Critical Revision, PO-RP-BOM-GS-0017, Issue 1, May 1998

Ref 1.8
Bomem,  "MIPAS In-flight Spectral Calibration and ILS retrieval", PO-TN-BOM-GS-0006, Issue 2A, June 1997.

Ref 1.9
Bomem, “Non-Linearity Characterization and Correction, PO-TN-BOM-MP-0019, Issue 1A, September 1996.

Ref 1.10
Camy-Peret C., J. M. Flaud, A. Perrin, C.P. Rinsland, A. Goldman and F. Murcray, "Stratospheric N2O5 CH4 and N2O profiles from IR solar occultation Spectra", J. Atmos Chem., 16, (31), 1993.

Carli B., B.M.Dinelli, P.Raspollini, M.Ridolfi, 'The problem of discrete representation and resampling in the case of limb-sounding measurements', accepted for publication in Applied Optics, (October 2000).

Ref 1.11
Carli B., M. Ridolfi, P. Raspollini, B. M. Dinelli, A. Dudhia, G. Echle, 'Study of the retrieval of atmospheric trace gas profiles from infrared spectra,' Final Report of ESA Study 12055-96-NL-CN (1998).

Ref 1.12
Carlotti M., B.M.Dinelli, P.Raspollini, M.Ridolfi, 'Geo-fit approach to the analysis of satellite limb-scanning measurements' submitted to Applied Optics, (Dec 2000).

Ref 1.13
Carlotti M., and M. Ridolfi, “Derivation of temperature and pressure from submillimetric limb observations, Applied Optics 38, 2398-2409 (1999).

Ref 1.14
Carlotti M. and B. Carli, “Approach to the design and data analysis of a limb-scanning experiment, Applied Optics, 33, 3237-3249 (1994).

Ref 1.15
Carlotti M., “Global-fit approach to the analysis of limb-scanning atmospheric measurements, Applied Optics 27, 3250-3254 (1988).

Ref 1.16
Chapman S., "A theory of the uper atmopsheric ozone", Mem. Roy. Meteor. Soc., 3, 103, 1930.

Ref 1.17
Clarmann T. v., A. Dudhia, G. Echle, J.-M. Flaud, C. Harrold, B. Kerridge, K. Koutoulaki, A. Linden, M. Lopez-Puertas, M. A. Lopez-Valverde, F.J. Martin-Torres, J. Reburn, J. Remedios, C. D. Rodgers, R. Siddans, R. J. Wells and G. Zaragoza, “ Study on the Simulation of Atmospheric Infrared Spectra, Final Report of ESA Contract Number 12054/96/NL/CN (1998).

Ref 1.18
Clarmann T. v., and G. Echle, “Selection of Optimized Microwindows for Atmospheric Spectroscopy, Applied  Optics 37, 7661-7669 (1998).

Ref 1.19
Clarmann T. v., A. Linden, G. Echle, A. Wegner, H. Fischer, M. Lopez-Puertas, in Proceedings of IRS '96: 'Current Problems in Atmospheric Radiation', Smith and Stamnes, ed. ISBN 0-937194-39-5 (Deepak Publishing, 1997). p. 557-560.

Ref 1.20
Clarmann T. v., A. Linden, H. Oelhaf, H. Fisher,  F. Friedl-Vallon, C. Piesch, M. Seefeldner, W. Volker, R. Bauer, A. Engel, and U. Schmidt, "Determination of the Stratopsheric Organic Chlorine Budget in the Spring Arctic Vortex from MIPAS-B Limb Emission Spectra and Air Smapling Experiments", J. Geophys. Res., 100, 13979, 1995.

Ref 1.21
Clarmann T. v., H. Fisher,  F. Friedl-Vallon, A. Linden, H. Oelhaf,  C. Piesch, M. Seefeldner and W. Volker, "Retrieval of Stratospheric O3, HNO3, and ClONO2 Prfiles from 1992 MIPAS_B Limb Emission Spectra: Method, Results and Error Analysis", J. Geophys. Res., 98, 20495, 1994.

Ref 1.22
Clarmann T. v., H. Fischer, and H. Oelhaf, “Instabilities in retrieval of atmospheric trace gas profiles caused by the use of atmospheric level models, Applied Optics, 30, 2924-2925 (1991).

Ref 1.23
Clough, S. A., F. X. Kneizys and R. W. Davies, 'Line shape and the water vapor continuum', Atmospheric Research, 23 229-241 (1989).

Ref 1.24
Delbouille L. and G. Roland, “Assessement of finite Field-of-View effects on MIPAS ILS and review of resolution enhancement techniques, Answer to ESA NTO/ME/1573.

Ref 1.25
Department of Defense, Military Standard 2401, World Geodetic System (WGS), 1994.

Ref 1.26
Dornier, "MIPAS Assumptions on the Ground Segment", PO-RS-DOR-SY-0029, May 1996.

Ref 1.27
Echle G.,  T. von Clarmann,  A. Dudhia,  J.-M. Flaud, B. Funke, N. Glatthor, B.J. Kerridge, M. Lpez-Puertas, F.J. Martin-Torres ,  and  G.P. Stiller, Optimized spectral microwindows for MIPAS-ENVISAT data analysis, App. Opt., Vol. 39, 5531-5540, 2000.

Ref 1.28
Echle G., T. v. Clarmann, A. Dudhia, M. Lopez-Puertas, F. J. Martin-Torres, B. Kerridge, and J.-M. Flaud, “ Spectral microwindows for MIPAS-ENVISAT data analysis, in Proceedings of the European Symposium on Atmospheric Measurements from Space, ESA Earth Science Division, ed. (European Space Agency - Estec, The Netherlands, 1999). Vol. 2, p. 481-485.

Ref 1.29
Edwards D. P., “High Level algorithm definition document of the MIPAS Reference Forward Model, ESA Report PO-TN-OXF-GS-0004 (1997).

Ref 1.30
Edwards D. P.  “GENLN2: A general line-by-line atmospheric transmittance and radiance model. Version 3.0 description and users guide, Report NCAR/TN-367+STR, Natl.Cent.for Atmos.Res., Boulder, Colo., (1992).

Ref 1.31
Edwards D. P. and L. L. Strow, “Spectral line shape considerations for limb temperature sounders, J. Geophys. Res. 96, 20859-20868 (1991)

Ref 1.32
Edlen B., Metrologia, 2, 12, (1966).

Ref 1.33
ESA, "ENVISAT MIPAS: An Instrument for Atmospheric Chemistry and Climate Research", SP-1229, March 2000.

Ref 1.34
ESA, "Limb Sounding techniques for Environmental Monitoring in the Nineties", ESA Report SP-1140, 1992.

Ref 1.35
Farmer C.B., O.F. Raper and F.G. O'Callaghan, Final Report on the First Flight of the ATMOS Instrument during the Spacelab 8 Mission, Spacelab 3 Mission and JPL Publication 97-82, 1987.

Ref 1.36
Fischer, H., Oelhaf, H., Remote Sensing of vertical profiles of atmospheric trace constituents with MIPAS limb emission spectrometers, Applied Optics, Vol. 35, Page 2787-2796, 1996.

Ref 1.37
Fisher H., "Remote Sensing of Atmospheric Trace Gases", Interdisc. Sci. Rev., 10, (185), 1993.

Ref 1.38
Fisher H., "Remote Sensing of Trace Constituents using Fourier Transform Spectrometry", Ber. Bunsenges Phy. Chem., 96, (306), 1992.

Ref 1.39
Friedl-Vallon, F., et al., Design and characterization of the balloon-borne Michelson Interferometer for Passive Atmospheric Sounding (MIPAS-B), to be submitted to Appl. Optics, 2001.

Ref 1.40
Friedl-Vallon, H. Fisher, T. von Clarmann, C. Frietzsche, H. Oelhaf, C. Piesch, M. Seefeldner, D. Rabus and W. Volker, Limb Emission Spectroscopy with the ballon-borne Michelson Interferometer for Passive Atmospheric Sounding (MIPAS)", Optiocal methods in Atmospheric Chemistry, SPIE 1715, 441, 1992.

Ref 1.41
Gill P. E., W. Murray, M. H. Wright, “Practical Optimization, Academic Press, Inc (1981).

Ref 1.42
Goldman A., R. S. Saunders, “Analysis of atmospheric infrared spectra for altitude distribution of atmospheric trace constituents -I: Method of analysis, J. Quant. Spectrosc. Radiat. Transfer 21, 155-162 (1979).

Ref 1.43
Guld T., Ch. Piesch, C.E. Blom, H. Fisher, F. Ferg, and G. Wildgruber, "The Airborne MIPAS Infrared Emission Experiment", Proc. of the Int. Airborne Remote Sensing Conference, ERIM, Vol. II, 301, 1994.

Ref 1.44
Hopfner M., C. Blom, T. Blumenstock, H. Fischer, T. Guide, "Evidence for the Removal of Gaseous HNO3 inside the Arctic Polar Vortex in January 1992", Geophys. Res. Lett., 23, 149, 1996.

Ref 1.45
Houghton J. T., “The Physics of Atmospheres , 2nd Ed, CUP, Cambridge, (1986).

Ref 1.46
Kalman R. E., “Algebraic aspects of the generalized inverse of a rectangular matrix,  in Proceedings of Advanced Seminar on Generalized Inverse and Applications, M.Z.Nashed, ed. (Academic, San Diego, Calif., 1976). p. 111-124.

Ref 1.47
Levenberg K., “A method for the solution of certain problems in least squares, Quart. Appl. Math. 2, 164-168 (1944).

Ref 1.48
Lopez-Puertas M., M. A. Lopez-Valverde, F. J. Martin-Torres, G. Zaragoza, A. Dudhia, T. v. Clarmann, B. J. Kerridge, K. Koutoulaki, and J.-M. Flaud, “Non-LTE studies for the MIPAS instrument, in in Proceedings of the European Symposium on Atmospheric Measurements from Space, ESA Earth Science Division, ed. (European Space Agency - Estec, The Netherlands, 1999). Vol. 1, p. 257-264.

Ref 1.49
Lpez-Puertas, M., G. Zaragoza, M. A. Lpez-Valverde, , F.J. Martin-Torres,  G.M. Shved,  R.O. Manuilova,  A.A. Kutepov,  O. Gusev, T.v. Clarmann,   A. Linden, G. Stiller, A. Wegner, H. Oelhaf, D.P. Edwards,  and J.- M. Flaud, Non-local thermodynamic equilibrium limb radiances for the MIPAS instrument on Envisat-1, J. Quant. Spectros. Radiat. Transfer, Vol. 59, 377-403, 1998.

Ref 1.50
Manuilova,  R.O., O.A. Gusev, A.A. Kutepov, T. von Clarmann, H. Oelhaf, G.P. Stiller, A. Wegner, M. Lpez Puertas,  F.J. Martin-Torres , G. Zaragoza, and J.M. Flaud, Modelling of non-LTE limb radiance spectra of IR ozone bands for the MIPAS space experiment,  J. Quant. Spectros. Radiat. Transfer, Vol. 59, 405-422, 1998.

Ref 1.51
Marquardt D. W., “An Algorithm for the Least-Squares Estimation of NonLinear Parameters, J. Soc. Appl. Math. 11, 431 (1963).

Ref 1.52
McKee T. B., R. I. Whitman, J. J. Lambiotte jr., “A technique to infer atmospheric water-vapor mixing ratio from measured horizon radiance profiles, NASA TN D-5252 (1969).

Ref 1.53
Menke W., “Geophysical Data Analysis: Discrete Inverse Theory, Academic, San Diego, Calif. (1984).

Ref 1.54
Norton R. H., R.Beer, “New apodizing functions for Fourier spectrometry, J. Opt. Soc. Am., 66,  259, (1976), and errata corrige J. Opt. Soc. Am., 67,  419, (1977).

Ref 1.55
Oelhaf H., T. von Clarmann, H. Fisher, F. Friedl-Vallon, C. Fritzsche, A. Linden, C. Piesch, M. Seefledner, M. Wolfel, "Stratospheric ClONO2, HNO3 and O3 Profiles Inside the Arctic Vortex from MIPAS-B Limb Emission Spectyra during EASOE 1992", Geophys. Res. Lett., 21, 1263, 1994.

Ref 1.56
Press W. H., S. A. Teukolsky, W. T. Wetterling, B. P. Flannerly: “Numerical Recipes in Fortran, Second Edition Cambridge University Press (1992).

Ref 1.57
Raspollini P. and M.Ridolfi, 'Mapping of Temperature and Line-of-Sight Errors in Constituent Retrievals for MIPAS / ENVISAT Measurements', Atmospheric Environment, Vol. 34, Nos. 29 “ 30, p. 5329 “ 5336 (2000).

Ref 1.58
Ridolfi M., B.Carli, M.Carlotti, T.v.Clarmann, B.M.Dinelli, A.Dudhia, J.-M.Flaud, M.Hoepfner, P.E.Morris, P.Raspollini, G.Stiller, R.J.Wells, 'Optimized forward model and retrieval scheme for MIPAS near-real-time data processing' Appl. Optics, Vol. 39, No. 8, p. 1323 “ 1340 (March 2000).

Ref 1.59
Rodgers C. D., “Retrieval of Atmospheric Temperature and Composition From Remote Measurements of Thermal Radiation, Reviews of Geophysics and Space Physics, 14, 609 (1976).

Ref 1.60
Rosenkranz P. W., “Shape of the 5 mm oxygen band in the atmosphere, IEEE Trans. Antennas Prop.AP-23, 498-506 (1975)

Ref 1.61
Sivia D. S., 'Data analysis. A Bayesian tutorial', Clarendon Press - Oxford (1998).

Ref 1.62
Strow L. L., H. E. Motteler, R.G. Benson, S.E. Hannon and S. De Souza-Machado, “Fast Computation of monochromatic infrared atmospheric transmittances using compressed look-up tables, J. Quant. Spectrosc. Radiat. Transfer, 59, 481-493, (1998).

Ref 1.63
Tikhonov A. N. and V. Y. Arsenin, “Solutions of ill-posed problems, V. H. Winston & Sons (1977).

Ref 1.64
Trieschmann, O., Weddigen, Ch., Thermal Emission from Dielectric Beamsplitters in Michelson Interferometers: A Schematic Analysis, Applied Optics, Vol. 39, pp. 5834-5842, 2000.

Ref 1.65
Twomey S., “Introduction to the mathematics of inversion in remote sensing and indirect measurements, Elsevier Scientific Publishing Company (1977).

Ref 1.66
Wetzel G., T. von Clarmann, H. Oelhaf and H. Fisher, "Vertical Profiles of N2O5 along with CH4, N2O and H2O in the Later Arctic Winter Retrieved from MIPAS-B Limb Emission Measurements", J. Geophys. res., 100,. 23173, 1995.

Conference proceedings

Ref 1.67
Battistini E., B.M. Dinelli, M. Carlotti B.Carli, P.Raspollini, M.Ridolfi, F. Friedl-Vallon, M. Hoepfner, H.Oel-haf, O. Trieschmann, G. Wetzel, 'Performances of MIPAS/ENVISAT Level 2 inversion algorithm with data measured by the balloon instrument MIPAS-B', International Radiation Symposium (IRS 2000), Saint - Petersburg State University, St. Petersburg, Russia,  24 - 29  July  2000.

Ref 1.68
Battistini, E., B.M. Dinelli, M. Carlotti, B.Carli, P.Raspollini, M.Ridolfi, F. Friedl-Vallon, M. Hoepfner, H. Oelhaf, O. Trieschmann, G. Wetzel,
Performances of MIPAS/ENVISAT Level 2 inversion algorithm with data measured by the balloon instrument MIPAS-B, Proc. Int. radiation Symposium 2000, Deepak Publ., in press, 2001.

Ref 1.69
Bennett, V. L., A. Dudhia and C. D. Rodgers, 'Microwindow Selection for MIPAS using Information Content', ESAMS'99 Proceedings, 18-22 January 1999, Noordwijk, NL.

Ref 1.70
Carli B., E.Battistini, M.Carlotti, T.v.Clarmann, B.M.Dinelli, A.Dudhia, G.Echle, J.-M.Flaud, A.Gignoli, M.Hoepfner, E.Lunedei, F.Mencaraglia, P.E.Morris, P.Raspollini, M.Ridolfi, G.Stiller, A.Vigiani, R.J.Wells, 'MIPAS Level 2 Algorithm', European Symposium on Atmospheric Measurements from Space, ESTEC Noordwijk, The Netherlands, 18-22 January 1999.

Ref 1.71
Carlotti M., B.M.Dinelli, P.Raspollini, M.Ridolfi, 'Geo-fit approach to the analysis of satellite limb-scanning measurements', OSA topical meeting on Fourier Transform Spectroscopy and optical remote sensing of the atmosphere, Coeur d'Alene, Idaho (USA), (5 “ 8 February 2001).

Ref 1.72
Clarmann T. v., M.Ridolfi et al., 'Advanced MIPAS-Level-2 Data Analysis (AMIL2DA)', ERS “ ENVISAT symposium, 16 “ 20 October 2000 Gothenburg, Sweden (poster presentation).

Ref 1.73
Friedl-Vallon, F, H. Oelhaf, M. Hopfner, A. Kleinert, A. Lengel, G. Maucher, H. Nordmeyer, O. Trieschmann, and G. Wetzel, Pre-launch assessment of MIPAS/ENVISAT near real-time Level 2 algorithm with data obtained from the balloon-borne MIPAS-B instrument, Part 1 - Instrument characterisation, Level 1b data processing and consistency checks., 9th int. Workshop on Atmospheric Science from Space using Fourier Transform Spectroscopy, Kyoto, Japan, 2000.

Ref 1.74
Friedl-Vallon, F., Maucher, G., Oelhaf, H., Trieschmann, O., Wetzel, G., Fischer, H., The balloon-borne Michelson interferometer for passive atmospheric sounding (MIPAS-B2). Instrument and results, Larer, A.M., (Hrsg.), Optical Spectroscopic Techniques and Instrumentation for Atmospheric and Space Research III: Proc. Of SPIE's 44th Annual Meeting, Denver, Colorado, July 19-21, 1999, SPIE Proceedings Series 3756, S. 9-16, Bellingham, Washington, 1999.

Ref 1.75
Friedl-Vallon, F., Kleinert, A., Trieschmann, O., Oelhaf, H., and Wetzel, G., Radiometric calibration of MIPAS-B2 spectra, 8th int. Workshop on Atmospheric Science from Space using Fourier Transform Spectroscopy, Meteo-France, Toulouse,1998.

Ref 1.76
Hoepfner M., H.Kemnitzer, G.Stiller, B.Carli, A.Gignoli, P.Raspollini, M.Ridolfi, M.Carlotti, A.Vigiani, J.- M.Flaud, 'An optimised forward and retrieval model for MIPAS near real-time data evaluation', 7th Interna-tional Workshop on Atmospheric Science from Space using Fourier Transform Spectrometry, Oberpfaffen-hofen, Munich, Germany (poster presentation), 12 “ 14 May 1997.

Ref 1.77
Jay, V.L.,  A.Dudhia, C.D.Rodgers, H. Oelhaf, O. Trieschmann, Channel selection for high-resolution remote sounding instruments, Proc. Int. Radiation Symposium 2000, Deepak Publ., in press, 2001.

Ref 1.78
Kleinert, A., Trieschmann, O., Quality assessment of the statistical phase determination approach and implication on the calibration accuracy for an emission spectrometer, 9th int. Workshop on Atmospheric Science from Space using Fourier Transform Spectroscopy, Kyoto, Japan, 2000.

Ref 1.79
Kleinert, A., Friedl-Vallon, F., Characterisation of the non-liearity of the  MIPAS-B2 detector system, 8th int. Workshop on Atmospheric Science from Space using Fourier Transform Spectroscopy, Météoo-France, Toulouse,1998.

Ref 1.80
Lengel, A., Multiple-line deconvolution of MIPAS-B2 high altitude spectra as a method to retrieve the ILS from flight data, 5th Workshop on Infrared Emission Measurements by FTIR, Quebec, Feb. 9-11, 2000.

Ref 1.81
Lpez-Puertas, M., M.A. Lpez-Valverde, F.J. Martin-Torres,  G. Zaragoza, A. Dudhia, T. von Clarmann, B.J. Kerridge, K. Koutoulaki, and J.-M. Flaud, Non-LTE Studies for the MIPAS Instrument,  Atmospheric Mea-surements from Space,  ESA-ESTEC WPP-161, Vol. 1, 257-264, Noordwijk,  The Netherlands, 18-22 January 1999.

Ref 1.82
Nett H., J.Langen, G.Perron, M.Ridolfi, S.Casadio, 'MIPAS Calibration and Processor Validation', ERS “ ENVISAT symposium,  Gothenburg, Sweden, 16 “ 20 October 2000.

Ref 1.83
Nett H., B.Carli, M.Carlotti, A.Dudhia, H.Fisher, J.-M.Flaud, J.Langen, G.Perron, P.Raspollini, M.Ridolfi, 'MIPAS Ground Processor and Data Products', IGARSS'99 Remote Sensing of the System Earth, - A Chal-lenge for the 21st Century, Hamburg (Germany),   28 June - 2 July 1999.

Ref 1.84
Oelhaf H., G. Wetzel, M. Hopfner, F. Friedl-Vallon, N. Glatthor, G. Maucher, G. Stiller, O. Trieschmann, Th. von Clarmann, M. Birk, G. Wagner, Interconsistency checks of ClONO2 retrievals from MIPAS-B spectra by using different bands and spectroscopic parameter, Proc. Int. Radiation Symposium 2000, Deepak Publ., in press, 2001.

Ref 1.85
Oelhaf H., A. Engel, H. Fischer, D. McKenna, C. Schiller, U. Schmidt, F. Stroh,  Validation of trace gas measurements of the ENVISAT instruments MIPAS, GOMOS and SCIAMACHY using in-situ and remote sensing balloon borne techniques, ERS-ENVISAT Symposium, Gothenburg, 16-20 October 2000

Ref 1.86
Oelhaf, H., H. Fischer, G. Wetzel, M. Stowasser, F. Friedl-Vallon, G. Maucher, O. Trieschmann, R. Ruhnke, and Y. Sasano, Intercomparison of ILAS/ADEOS with MIPAS-B measurements in late March 1997, SPIE Vol. 3501, 92-100, 1998.

Ref 1.87
Oelhaf, H., G. Wetzel, M. Stowasser, F. Friedl-Vallon, G. Maucher, O. Trieschmann, R. Ruhnke, H. Fischer and Y. Sasano, Validation of ILAS on ADEOS with MIPAS-B2 and lessons learnt for the validation of ENVISAT instruments, Proc. 8th Intern. Workshop on Atmospheric Science from Space using Fourier Transform Spectroscopy, pp. 241-249, Toulouse, 16-18 Nov. 1998.

Ref 1.88
Oelhaf, H., et al., Remote Sensing of the Arctic stratosphere with the new balloon-borne MIPAS-B2 instrument, in Polar stratospheric ozone, Proc. 3rd European Workshop 18 to 22 September 1995, Schliersee, Bavaria, Germany, J. A. Pyle, N. R. P. Harris, and G. T. Amanatidis eds., European Commission, pp. 270-275, 1996a.

Ref 1.89
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Keywords: ESA European Space Agency - Agence spatiale europeenne, observation de la terre, earth observation, satellite remote sensing, teledetection, geophysique, altimetrie, radar, chimique atmospherique, geophysics, altimetry, radar, atmospheric chemistry