Presentation is loading. Please wait.

Presentation is loading. Please wait.

Jet Propulsion Laboratory California Institute of Technology 1 V-1 11 th HITRAN Conference, Cambridge, MA, June 16-18, 2010 The importance of being earnest.

Published by Modified over 8 years ago

Similar presentations

Presentation on theme: "Jet Propulsion Laboratory California Institute of Technology 1 V-1 11 th HITRAN Conference, Cambridge, MA, June 16-18, 2010 The importance of being earnest."— Presentation transcript:

1 Jet Propulsion Laboratory California Institute of Technology 1 V-1 11 th HITRAN Conference, Cambridge, MA, June 16-18, 2010 The importance of being earnest about line shapes!! Charles E. Miller and Linda R. Brown Jet Propulsion Laboratory, California Institute of Technology 4800 Oak Grove Dr., Pasadena, California 91109 Acknowledgments The research at the Jet Propulsion Laboratory (JPL), California Institute of Technology, was performed under contract with National Aeronautics and Space Administration.

2 Jet Propulsion Laboratory California Institute of Technology 2 V-1 11 th HITRAN Conference, Cambridge, MA, June 16-18, 2010 Return global X CO2 data with 0.3% precision Our Research Goal: Improve CO 2 and O 2 line parameters

3 Jet Propulsion Laboratory California Institute of Technology 3 V-1 11 th HITRAN Conference, Cambridge, MA, June 16-18, 2010 Better Accuracies Require Precise Knowledge/Control of the Experimental State Pristine cells – no contamination Temperature monitoring inside the cell Isotopic enriched samples Mass spectrometric standard samples Stable spectrometer performance Goal for Experimental Uncertainties: Abundances:  0.05% (purity, Isotope) Pressure:  0.01 Torr (if P > 10 Torr) Temperature:  0.1 K Path:  2 mm (0.1%) Signal/noise:2000:1 Resolution:nearly Doppler-limited 100% Trans:  0.1% 0% Trans:  0.1% Instrumental line shape Four Temp Probes (PRT) going Inside the Cell

4 Jet Propulsion Laboratory California Institute of Technology 4 V-1 11 th HITRAN Conference, Cambridge, MA, June 16-18, 2010 Molecular Line Shape Problem! Miller et al. Comptes Rendus Physique 6 (2005). Voigt only Strange residuals Strange residuals (!) Multispectrum retrievals one solution for all lines fitting all spectra simultaneously [modified from Benner et al. JQSRT 53, 705 (1995)] NEW CO 2 Lab parameters could not be used in (Voigt only) atmospheric retrievals. non-Voigt line shapes (line mixing + speed dependence + narrowing)

5 Jet Propulsion Laboratory California Institute of Technology 5 V-1 11 th HITRAN Conference, Cambridge, MA, June 16-18, 2010 Too many line shape choices! Lisak et al. 2010 O 2 B-band

6 Jet Propulsion Laboratory California Institute of Technology 6 V-1 11 th HITRAN Conference, Cambridge, MA, June 16-18, 2010 What we have to do now! Learn what combination of line shapes can produce the best atmospheric retrievals. Create and Validate universal software using the required molecular shapes to compute synthetic spectra (radiances etc….). Give standardized software to both atmospheric and lab spectroscopists: So that new lab parameters will be consistent with atmospheric calculations.

7 Jet Propulsion Laboratory California Institute of Technology 7 V-1 11 th HITRAN Conference, Cambridge, MA, June 16-18, 2010 Need to do better lab studies Use community-validated multi-spectrum retrieval codes that permit us to obtain consistent values of line shape parameters. (do intercomparisons) Use gas pressure that can reveal all activated line shapes (Voigt, speed dependence, line mixing, narrowing …..). Excellent instrumental performance (usual stuff). Conventional Strategy: Sequential L-B-L analyses Quantum modeling Pres. (atm) 1 st Positions: < 0.001 2 nd Intensities: < ~ 0.010 To Create good database for broadening retrievals 3 rd Shapes: Lorentz: 0.10 – 1. Narrowing & 0.03 – 0.1 Speed Dependence (Lorentz=Doppler) Line mixing: 0.5 – 10 Collision Induced Abs: 1 – 20 ?

8 Jet Propulsion Laboratory California Institute of Technology 8 V-1 11 th HITRAN Conference, Cambridge, MA, June 16-18, 2010 Constraining multispectrum fits! STRATEGY: Fit all lines and spectra simultaneously BUT Constrain positions and intensities and adjust constants in the quantum mechanical equations (instead of fitting line-by-line) Pressure broadening parameters still fitted line-by-line Line Positions: ν i = ν 0 + B(J(J+1)) - D(J(J+1)) 2 + H(J(J+1)) 3 – E" ν i Resonant frequency ν 0 Band origin J Rotational quantum number E" Lower state rotational energy (fixed) ν 0, B, D, H, upper state constants of each band in the region, are the adjusted instead of individual positions. Line Intensities: S i = ( i / 0 )(S v /L i ) exp(-hcE i ″/kT)[1-exp(hcv i /kT)]F S i,observed individual line intensity S v vibrational band intensity, F Herman-Wallis factor = [1+A 1 m+A 2 m 2 +A 3 m 3 ] 2 L i Hönl-London factor, where l i = (m 2  l″ 2 )/|m| for CO 2 m = J″+1 R branch, m =  J″ for the P branch J″, llower-state rotational & angular momentum quanta Q r lower state rotational partition function at T 0 =296 K E i ″ lower state rotational energy S v, A 1, A 2 are the adjusted parameters Can we do this for asymmetric tops? symmetric tops?

9 Jet Propulsion Laboratory California Institute of Technology 9 V-1 11 th HITRAN Conference, Cambridge, MA, June 16-18, 2010 CALL TO ACTION! Fits to laboratory and atmospheric spectra must use the same line shape formulations Create new universal line shape (LS) software Validate LS formulations Expand databases to include all necessary LS parameters Convince sponsors to fund it! Coming goal: 0.1% accuracy for strongest bands

Download ppt "Jet Propulsion Laboratory California Institute of Technology 1 V-1 11 th HITRAN Conference, Cambridge, MA, June 16-18, 2010 The importance of being earnest."

Similar presentations

Thinh Bui1, Daniel Hogan1, Priyanka M. Rupasinghe1, Mitchio Okumura1

Thinh Bui1, Daniel Hogan1, Priyanka M. Rupasinghe1, Mitchio Okumura1
D. Chris Benner and V Malathy Devi College of William and Mary Charles E. Miller, Linda R. Brown and Robert A. Toth Jet Propulsion Laboratory Self- and.

D. Chris Benner and V Malathy Devi College of William and Mary Charles E. Miller, Linda R. Brown and Robert A. Toth Jet Propulsion Laboratory Self- and.
Spectral shapes modeling and remote sensing of greenhouse gases. Toward the OCO and GOSAT experiments and future HITRAN issues.

Spectral shapes modeling and remote sensing of greenhouse gases. Toward the OCO and GOSAT experiments and future HITRAN issues.
High sensitivity CRDS of the a 1 ∆ g ←X 3 Σ − g band of oxygen near 1.27 μm: magnetic dipole and electric quadrupole transitions in different bands of.

High sensitivity CRDS of the a 1 ∆ g ←X 3 Σ − g band of oxygen near 1.27 μm: magnetic dipole and electric quadrupole transitions in different bands of.
Victor Gorshelev, A. Serdyuchenko, M. Buchwitz, J. Burrows, University of Bremen, Germany; N. Humpage, J. Remedios, University of Leicester, UK IMPROVED.

Victor Gorshelev, A. Serdyuchenko, M. Buchwitz, J. Burrows, University of Bremen, Germany; N. Humpage, J. Remedios, University of Leicester, UK IMPROVED.
Toward a global model of low-lying vibrational states of methyl cyanide, CH 3 CN: the v 4 = 1 state at 920 cm –1 and its interactions with nearby states.

Toward a global model of low-lying vibrational states of methyl cyanide, CH 3 CN: the v 4 = 1 state at 920 cm –1 and its interactions with nearby states.
New multispectrum fitting software used at DLR for analysis of laboratory Fourier-Transform molecular spectra Joep Loos, Manfred Birk, Georg Wagner German.

New multispectrum fitting software used at DLR for analysis of laboratory Fourier-Transform molecular spectra Joep Loos, Manfred Birk, Georg Wagner German.
1 TCCON at Caltech, May 2008 New Line Parameters for Near-IR Methane and the Oxygen A-Band presented by Linda R. Brown (JPL) World-wide Effort Belgium,

1 TCCON at Caltech, May 2008 New Line Parameters for Near-IR Methane and the Oxygen A-Band presented by Linda R. Brown (JPL) World-wide Effort Belgium,
Vertically constrained CO 2 retrievals from TCCON Measurements Vertically constrained CO 2 retrievals from TCCON Measurements Le Kuai 1, Brain Connor 2,

Vertically constrained CO 2 retrievals from TCCON Measurements Vertically constrained CO 2 retrievals from TCCON Measurements Le Kuai 1, Brain Connor 2,
Dual Wavelength Isotope Ratio FS-CRDS Thinh Q. Bui California Institute of Technology ISMS 2014.

Dual Wavelength Isotope Ratio FS-CRDS Thinh Q. Bui California Institute of Technology ISMS 2014.
Jet Propulsion Laboratory California Institute of Technology 1 10 th HITRAN Database Conference Cambridge MA June 22, 2008 Near Infrared CO 2 Spectral.

Jet Propulsion Laboratory California Institute of Technology 1 10 th HITRAN Database Conference Cambridge MA June 22, 2008 Near Infrared CO 2 Spectral.
PRESSURE BROADENING AND SHIFT COEFFICIENTS FOR THE 22 0 1-00 0 0 BAND OF 12 C 16 O 2 NEAR 6348 cm -1 D. CHRIS BENNER and V MALATHY DEVI Department of Physics,

PRESSURE BROADENING AND SHIFT COEFFICIENTS FOR THE BAND OF 12 C 16 O 2 NEAR 6348 cm -1 D. CHRIS BENNER and V MALATHY DEVI Department of Physics,
9th Biennal HITRAN Conference Harvard-Smithsonian Center for Astrophysics June 26–28, 2006 GLOBAL FREQUENCY AND INFRARED INTENSITY ANALYSIS OF 12 CH 4.

9th Biennal HITRAN Conference Harvard-Smithsonian Center for Astrophysics June 26–28, 2006 GLOBAL FREQUENCY AND INFRARED INTENSITY ANALYSIS OF 12 CH 4.
1 +2 5 0  5 1 1 +( 4 + 5 ) 0+  4 1 1 +2 5 2  5 1 1 +( 4 + 5 ) 0–  4 1 Results at 2.5 microns 2 +(2 4 + 5 ) 1 II 3 + 4 1 1 + 5 1 2 +3 5 1 1 +( 4 + 5.

 ( ) 0+   ( ) 0–  4 1 Results at 2.5 microns 2 +( ) 1 II (
SPECTRAL LINE PARAMETERS FOR THE 9 BAND OF ETHANE Malathy Devi & Chris Benner, W&M Rinsland & Smith, NASA Langley Bob Sams & Tom Blake, PNNL Jean-Marie.

SPECTRAL LINE PARAMETERS FOR THE 9 BAND OF ETHANE Malathy Devi & Chris Benner, W&M Rinsland & Smith, NASA Langley Bob Sams & Tom Blake, PNNL Jean-Marie.
N 2 -broadened 13 CH 4 at 80 to 296 K Mary Ann H. Smith 1, Keeyoon Sung 2, Linda R. Brown 2, Timothy J. Crawford 2, Arlan W. Mantz 3, V. Malathy Devi 4,

N 2 -broadened 13 CH 4 at 80 to 296 K Mary Ann H. Smith 1, Keeyoon Sung 2, Linda R. Brown 2, Timothy J. Crawford 2, Arlan W. Mantz 3, V. Malathy Devi 4,
Molecular Databases: Evolution and Revolution Laurence S. Rothman Iouli E. Gordon Harvard-Smithsonian Center for Astrophysics Atomic and Molecular Physics.

Molecular Databases: Evolution and Revolution Laurence S. Rothman Iouli E. Gordon Harvard-Smithsonian Center for Astrophysics Atomic and Molecular Physics.
11 Collisional effects on spectral shapes and remote sensing H. Tran LISA, CNRS UMR 7583, Université Paris-Est Créteil and Université Paris Diderot

11 Collisional effects on spectral shapes and remote sensing H. Tran LISA, CNRS UMR 7583, Université Paris-Est Créteil and Université Paris Diderot
Jet Propulsion Laboratory California Institute of Technology The College of William and MaryUniversity of Lethbridge.

Jet Propulsion Laboratory California Institute of Technology The College of William and MaryUniversity of Lethbridge.
Explore. Discover. Understand. AIR-BROADENED LINE WIDTHS AND SHIFTS IN THE ν 3 BAND OF 16 O 3 AT TEMPERATURES BETWEEN 160 AND 300 K M. A. H. SMITH and.

Explore. Discover. Understand. AIR-BROADENED LINE WIDTHS AND SHIFTS IN THE ν 3 BAND OF 16 O 3 AT TEMPERATURES BETWEEN 160 AND 300 K M. A. H. SMITH and.

Similar presentations

Ads by Google