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New multispectrum fitting software used at DLR for analysis of laboratory Fourier-Transform molecular spectra Joep Loos, Manfred Birk, Georg Wagner German.

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Presentation on theme: "New multispectrum fitting software used at DLR for analysis of laboratory Fourier-Transform molecular spectra Joep Loos, Manfred Birk, Georg Wagner German."— Presentation transcript:

1 New multispectrum fitting software used at DLR for analysis of laboratory Fourier-Transform molecular spectra Joep Loos, Manfred Birk, Georg Wagner German Aerospace Center, Remote Sensing Technology Institute > 13 th International HITRAN Conference > J. Loos New multispectrum fitting software used at DLR > June 24, 2014DLR.de Chart 1

2 Absorption cross sections or line-by-line data? > 13 th International HITRAN Conference > J. Loos New multispectrum fitting software used at DLR > June 24, 2014DLR.de Chart 2 High measurement effort Higher resolution necessary Low analysis effort Only interpolation  e.g. HFCs, CFCs Baseline less critical Less measurements needed Extrapolation possible (to some extent) Low line density Error parametrization accessible  e.g. CO, NO, H2O

3 Why multispectral fitting? > 13 th International HITRAN Conference > J. Loos New multispectrum fitting software used at DLR > June 24, 2014DLR.de Chart 3 „Classical“ analysis: single spectrum fitting FitMAS, LINEFIT, tool by MB/GW, … Multispectral analysis Computationally inexpensive Quality assessment accessible:  Chi-Test, filecuts Test of data reduction model possible Error covariances lost Computationally extensive Quality assessment difficult: only spectral residuals Data reduction model has to be known decorrelates various parameters opaque and blended lines can be fitted

4 Single spectrum fitting + consecutive data reduction = sound method for generation of spectroscopic data Complexity and computation time requirements restrict multispectral fit to small spectral intervals Temperature and number density fit requires large spectral range  restricted to single spectrum fits Multispectrum fit yields higher precision in many cases Multispectrum fit can give higher accuracy in some cases Multispectrum fit enables fitting of parameters not accessible to single spectral analysis e.g. speed-dependence  Fusion of multispectrum and single spectrum fit to combine advantages Multispectrum vs single spectrum fitting > 13 th International HITRAN Conference > J. Loos New multispectrum fitting software used at DLR > June 24, 2014DLR.de Chart 4

5 Line models Voigt Speed-dependent Voigt (C. Boone) Speed-dependent Galatry + LM (F. Hase) pCqSDHC + LM (Ngo, Tran) Humlicek by Kuntz & Ruyten for Boone and Tran Versatile interactive mode Choice of line model, fitparameters ILS, calibration factors, baseline, channelling, … Automatic mode Microwindow-, spectra-, fitparameter selection (Voigt) Chi-test of spectral residuals Residua analysis similar to MIPAS/ENVISAT REC analsis by Anu Dudhia planned Single spectrum fitting Temperature/number density fit Filecuts (results of single-spectra-fits vs. ms-fit) Identification of systematic spectrum-specific errors Identification/prevention of correlation between fitted parameters Identification of source of information What can the new software do? > 13 th International HITRAN Conference > J. Loos New multispectrum fitting software used at DLR > June 24, 2014DLR.de Chart 5 Filecut

6 How does it look like? > 13 th International HITRAN Conference > J. Loos New multispectrum fitting software used at DLR > June 24, 2014DLR.de Chart 6

7 Example: Speed-dependent analysis of H 2 O 2 band > 13 th International HITRAN Conference > J. Loos New multispectrum fitting software used at DLR > June 24, 2014DLR.de Chart 7

8 Example: Speed-dependent analysis of H 2 O 2 band > 13 th International HITRAN Conference > J. Loos New multispectrum fitting software used at DLR > June 24, 2014DLR.de Chart 8 Voigt: w-shaped residuals for non-opaque lines Voigt: line-wing residuals for opaque lines Fitted broadening parameters systemitically larger when fitted with SDV  Opaque lines are modelled too narrow Influence of narrowing larger when broadening parameter lower (higher J)

9 Example: Line mixing of N 2 O 3 band > 13 th International HITRAN Conference > J. Loos New multispectrum fitting software used at DLR > June 24, 2014DLR.de Chart 9

10 Example: Line mixing of N 2 O 3 band > 13 th International HITRAN Conference > J. Loos New multispectrum fitting software used at DLR > June 24, 2014DLR.de Chart 10

11 Multispectral analysis essential when using line profiles of high complexity and various parameters IDL fitting tool combining advantages of single and multispectrum fit has been developed Several line models Interactive and automatic mode Additional information for quality assessment (parameter correlation matrix, information content, filecuts) H 2 O 2 band reanalyzed Speed-dependence of broadening parameter has to be considered Opaque and non-opaque lines fitted simultaneously Systematically larger broadening parameters than HITRAN N 2 O 3 band High SNR measurements Speed-dependence and line mixing have to be considered Concluding remarks > 13 th International HITRAN Conference > J. Loos New multispectrum fitting software used at DLR > June 24, 2014DLR.de Chart 11

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