|
Registered for 10th HITRAN Conference |
||
|---|---|---|
| Name | Affiliation | Title of Presentation |
| Alain BARBE |
Université de Reims Groupe Spectrométrie Moléculaire Atmosphérique Reims, FRANCE |
Updated Line-list of 16O3 in the Range 5869-7000 cm-1 Deduced from CRDS Spectra |
| D. Chris BENNER |
College of William and Mary Department of Physics Williamsburg, USA |
Temperature Dependence of Air-broadened Half-Width and Pressure-Shift Coefficients in the 30012 - 00001 Band of 12C16O2 |
| Peter BERNATH |
University of York Dept. of Chemistry York, UK |
The Atmospheric Chemistry Experiment, ACE: Latest Results |
| Giovanni BIANCHINI |
Istituto di Fisica Applicata CNR Sesto Fiorentino, ITALY |
Spectrally Resolved Measurement of the Downwelling Longwave Radiance From a High-altitude Station: Spectroscopic Issues in the Data Analysis |
| William E. BLASS |
University of Tennesee Department of Physics and Astronomy Knoxville, USA |
14CO2 Laser Heterodyne Measurements of Frequencies and Intensities of Ethane at 12 Micrometers |
| Chris BOONE |
University of Waterloo Dept. of Chemistry Waterloo, CANADA |
Spectroscopic Needs for the Atmospheric Chemistry Experiment, ACE |
| Carolyn BRAUER |
Jet Propulsion Laboratory Pasadena, USA |
Line Intensities of Methanol in the 400-cm-1 Region |
| Gabriele BRIZZI |
Harvard-Smithsonian Center for Astrophysics Atomic and Molecular Physics Division Cambridge, USA |
Retrieval of H15NO3 Vertical Atmospheric Distribution from MIPAS/ENVISAT Limb-emission Measurements |
| Linda R. BROWN |
Jet Propulsion Laboratory Earth and Space Sciences Division Pasadena, USA |
1. New Line Parameters for Near-IR Methane and the Oxygen A-Band 2. Methane Spectroscopy in the Near Infrared and its Implication on Atmospheric Retrievals |
| Sandra BRÜNKEN |
Harvard-Smithsonian Center for Astrophysics Cambridge, USA |
High-Resolution Spectroscopy and Astronomical Detection of Molecular Anions |
| Darrell E. BURCH |
(One of original HITRAN authors) Orange, USA |
|
| Alain CAMPARGUE |
Université Joseph Fourier Lab. de Spectrométrie Physique Grenoble, FRANCE |
1. High Sensitivity CW-CRDS Spectroscopy of the Eight Most Abundant CO2 Isotopologues between 5851 and 7045 cm-1. Critical Review of the Current Databases 2. The Near Infrared (1.30-1.70µm) Absorption Spectrum of Methane: CW-CRDS at Room Temperature and Direct Absorption down to 77K |
| Michel R. CARLEER |
Université Libre de Bruxelles Service de Chimie Quantique et Photophysique Brussels, BELGIUM |
|
| Jerome CARON |
Rhea System S.A. ESA, ESTEC Noordwijk, NETHERLANDS |
|
| Gabriele CAZZOLI |
Università di Bologna Dipartimento di Chimica G. Ciamician Bologna, ITALY |
Pressure-broadening of Water Lines in the THz Frequency Region: Improvements and Confirmations for Spectroscopic Databases |
| Kelly CHANCE |
Harvard-Smithsonian Center for Astrophysics Atomic and Molecular Physics Division Cambridge, USA |
|
| Shepard A. CLOUGH |
Clough Associates Lexington, USA |
Implications for Molecular Spectroscopy Inferred from IASI Satellite Spectral Measurements |
| Pierre Richard DAHOO |
Université de Versailles Institut Pierre Simon Laplace Verrières le Buisson, FRANCE |
From Matrix Isolation Spectroscopy to First Observation of the CO2 628 isotopologue v2 + v3 Band in the Atmosphere of Venus |
| Ludovic DAUMONT |
Université de Reims Groupe Spectrométrie Moléculaire Atmosphérique Reims, FRANCE |
H2O/HDO/D2O Fourier Transform Infrared Spectroscopy: the 5200-11600 cm-1 Region |
| Marie-Renée De BACKER-BARILLY |
Université de Reims Groupe Spectrométrie Moléculaire Atmosphérique Reims, FRANCE |
Updated Line-list of 16O3 in the Range 5869-7000 cm-1 Deduced from CRDS Spectra |
| Hoang DOTHE |
Spectral Sciences, Inc. Burlington, USA |
|
| Brian J. DROUIN |
Jet Propulsion Laboratory Pasadena, USA |
JPL Millimeter and Submillimeter Spectral Line Catalog |
| Alexander FAZLIEV |
Institute of Atmospheric Optics Center of Integrated Information Systems Tomsk, RUSSIA |
W@DIS: Water spectroscopy with a Distributed Information System |
| Fifi Nsama FIKIDI |
Bill Clinton Foundation for Peace Kinshasa, D.R. CONGO |
|
| Jean-Marie FLAUD |
Université Paris 12 Lab. Interuniversitaire des Systèmes Atmosphériques Créteil, FRANCE |
The High-Resolution Infrared Spectrum of 34S16O2 up to 4000 cm-1 |
| Robert GAMACHE |
University of Massachusetts Lowell Dept. Environmental Earth and Atmospheric Sciences Lowell, USA |
1. N2-Broadening of the v5 Band Transitions of HNO3 in the Region from 841 to 931 cm-1 2. Half-Widths and Line Shifts for Transitions in the v3 Band of Methane in the 2726-3200 cm-1 Spectral Region for Atmospheric Applications |
| Aaron GOLDMAN |
University of Denver Dept. of Physics Denver, USA |
|
| Iouli GORDON |
Harvard-Smithsonian Center for Astrophysics Atomic and Molecular Physics Division Cambridge, USA |
Evolution of OH Spectroscopic Parameters in Theory and in Practice |
| John S. HAGER |
University of Tennesee Knoxville, USA |
Surface Pressure Measurements using Differential Absorption LIDAR with Broad Laser Lines |
| Tilak HEWAGAMA |
University of Maryland Department of Astronomy College Park, USA |
Extracting Accurate Molecular Spectroscopic Parameters from High Resolution IR Laboratory Spectroscopy |
| Yi HUANG |
Princeton University Geophysical Fluid Dynamics Lab Princeton, USA |
Examine Climate Models by using Infrared Spectra |
| Eric HUELSON |
Zolo Technologies Boulder, USA |
|
| David JACQUEMART |
Université Pierre et Marie Curie Laboratoire de Dynamique, Interactions et Réactivité Paris, FRANCE |
1. Methyl Bromide 12CH379Br and 12CH381Br around 10-µm: A Complete Set of Parameters for Atmospheric Detection 2. Methane for Atmospheric, Planetary and Astrophysics Applications: What Spectroscopic Parameters do we need? |
| Lisa KALTENEGGER |
Harvard-Smithsonian Center for Astrophysics Optical and Infrared Astronomy Physics Division Cambridge, USA |
Characterizing Pale Blue Dots in the Sky - Spectral Fingerprints from Earth to Super-Earth |
| Andreas B. KARPF |
Adelphi University New York, USA |
Detection of NO2 using an External Cavity, Tunable, CW Quantum Cascade Laser Employing Wavelength Modulation Spectroscopy Techniques |
| Konstantin KHLOPENKOV |
Canada Centre for Remote Sensing Ottawa, CANADA |
|
| Nelly LACOME |
Université Pierre et Marie Curie Laboratoire de Dynamique, Interactions et Réactivité Paris, FRANCE |
The Acetylene Laboratory IR Spectrum: Quantitative Studies and Databases |
| Olga F. LADO-BORDOWSKY |
Université Rennes ENSSAT Lannion, FRANCE |
|
| F. Javier MARTIN-TORRES |
AS&M, NASA/Langley Research Center Hampton, USA |
TBD |
| Martin McHUGH |
GATS, Inc. Newport News, USA |
Initial Results from SOFIE/AIM |
| Semen MIKHAILENKO |
Institute of Atmospheric Optics Laboratory of Theoretical Spectroscopy Tomsk, RUSSIA |
SPECTRA, an Internet Accessible Information System for Spectroscopy of Atmospheric Gases |
| Charles MILLER |
Jet Propulsion Laboratory Earth and Space Sciences Division Pasadena, USA |
Near-IR Carbon Dioxide Spectral Database |
| Eli MLAWER |
Atmospheric and Environmental Research, Inc. Lexington, USA |
Comparison of Measured and Modeled Transmittances in Near-infrared and Visible Water Vapor Bands |
| David D. NELSON |
Aerodyne Research, Inc. Billerica, USA |
Applying Spectroscopy to Global Change: Isotopic Ratio Measurments of Ambient Carbon Dioxide and Methane |
| Caroline NOWLAN |
Harvard-Smithsonian Center for Astrophysics Atomic and Molecular Physics Division Cambridge, USA |
|
| Johannes ORPHAL |
Université Paris 12 Lab. Interuniversitaire des Systèmes Atmosphériques Créteil, FRANCE |
High-resolution Spectroscopy in the Near-infrared for Atmospheric Applications |
| Scott PAINE |
Harvard-Smithsonian Center for Astrophysics Radio and Geoastronomy Physics Division Cambridge, USA |
|
| Vivienne H. PAYNE |
Atmospheric and Environmental Research, Inc. Lexington, USA |
1. Air-broadened Half-widths of the 22 GHz and 183 GHz Water Vapor Lines 2. Improved Understanding of Far-Infrared Radiative Processes Using Measurements from the ARM North Slope of Alaska Climate Research Facility |
| Agnès M. PERRIN |
Université Paris 12 Lab. Interuniversitaire des Systèmes Atmosphériques Créteil, FRANCE |
1. HNO3 Spectroscopic Parameters in the 600 - 950 cm-1 and 1300 - 1360 cm-1 Spectral Regions 2. Absolute Line Intensities, Accurate Line-broadening Parameters and New Linelists for the 5.7-µm and 3.6-µm Bands of Formaldehyde |
| Bill PHILLIPS |
AEDC/ATA Arnold AFB, USA |
|
| David PLUSQUELLIC |
National Institute of Standards and Technology Physics Lab. Gaithersburg, USA |
Experimental and Theoretical Studies of Water-Vapor Continuum Absorption in the THZ Region from 0.3 TO 2.7 THZ |
| Denis PLUTOV |
University of South Florida Center for Laser Atmosph. Sensing Tampa, USA |
Combining HITRAN Line-by-line, UV Cross-section and PNNL databases for Modeling of LIBS and Raman Lidar |
| Cristina PUZZARINI |
Università di Bologna Dipartimento di Chimica G. Ciamician Bologna, ITALY |
Pressure-broadening of Water Lines in the THz Frequency Region: Improvements and Confirmations for Spectroscopic Databases |
| Curtis P. RINSLAND |
NASA Langley Research Center Chemistry and Dynamics Branch Hampton, USA |
Quantitative Measurement of Integrated Band Intensities of Benzene (C6H6) Vapor in the Mid-infrared at 278, 298 and 323 K |
| Laurence S. ROTHMAN |
Harvard-Smithsonian Center for Astrophysics Atomic and Molecular Physics Division Cambridge, USA |
Some Details of the Upcoming HITRAN Updates for the New Edition of 2008 |
| John SCHROEDER |
Ontar Corporation North Andover, USA |
|
| Andreas SEIFAHRT |
Universität Göttingen Institute for Astrophysics Göttingen, GERMANY |
Precise Modeling of Atmospheric Absorption Features in High-resolution Astronomical Spectra |
| John E.A. SELBY |
Northrop Grumman Corporation Electronic Systems Melville, USA |
Comparison of Predicted High-Resolution Atmospheric Transmission with Measurements, Visible to 2 Microns |
| Takamasa SETA |
National Institute of Information and Communications Technology Tokyo, JAPAN |
Pressure Broadening Coefficients of Water-Vapor Lines in the Terahertz Region |
| Amit Raj SHARMA |
Emory University Atlanta, USA |
High-accuracy Spectral Lines for Radiation Transport in Stellar Atmospheres |
| Mark W. SHEPHARD |
Atmospheric and Environmental Research, Inc. Lexington, USA |
|
| Mary Ann H. SMITH |
NASA Langley Research Center Chemistry and Dynamics Branch Hampton, USA |
Self- and Air-broadening, Shifts, and Line Mixing in the v4 and v2 Bands of CH4 |
| Keeyoon SUNG |
Jet Propulsion Laboratory Pasadena, USA |
Line Position, Intensities, Self-broadening, and Pressure-induced Line Shift in the 2v3 Band Region of OCS near 4100 cm-1 |
| Sergei TASHKUN |
Institute of Atmospheric Optics Laboratory of Theoretical Spectroscopy Tomsk, RUSSIA |
CDSD-296 Carbon Dioxide Spectroscopic Databank: Updated and Enlarged Version for Atmospheric Applications |
| Jonathan TENNYSON |
University College London Department of Physics and Astronomy London, UK |
The IUPAC Water-Vapour Database |
| Shanshan YU |
Jet Propulsion Laboratory Pasadena, USA |
|
| Jean VANDER AUWERA |
Université Libre de Bruxelles Service de Chimie Quantique et Photophysique Brussels, BELGIUM |
1. Line Positions and Intensities in the v12 Band of Ethylene near 1450 cm-1: An Experimental and Theoretical Study 2. Global Modeling of 13C16O2 Absolute Line Intensities from CW-CRDS and FTS Measurements in the 1.6- and 2.0-micrometer Regions 3. First List of Line Positions and Intensities for the v3 Band of Trans-HCOOH near 5.6 µm |
| Frederic ZAGURY |
Institut Louis de Broglie Paris, FRANCE |
Non-linear Effects of Atmospheric Extinction on Observations in Astronomy |