论文信息 - The 2009 edition of the GEISA spectroscopic database

The 2009 edition of the GEISA spectroscopic database

[1] Vincent Guidard,et al. Towards IASI-New Generation (IASI-NG): impact of improved spectral resolution and radiometric noise on the retrieval of thermodynamic, chemistry and climate variables , 2013 .

[2] A. Nikitin,et al. Accurate spectroscopic models for methane polyads derived from a potential energy surface using high-order contact transformations. , 2013, The journal of physical chemistry. A.

[3] Robert R. Gamache,et al. Predicting accurate line shape parameters for CO2 transitions , 2013 .

[4] L. Brown,et al. Re-analysis of ammonia spectra: Updating the HITRAN 14NH3 database , 2013 .

[5] A. A. Azzam,et al. Terahertz spectroscopy of hydrogen sulfide , 2013 .

[6] J. Buldyreva. Air-broadening coefficients of CH335Cl and CH337Cl rovibrational lines and their temperature dependence by a semi-classical approach , 2013 .

[7] S. Mikhailenko,et al. An improved line list for water vapor in the 1.5 µm transparency window by highly sensitive CRDS between 5852 and 6607 cm−1 , 2013 .

[8] A. Barbe,et al. Ozone spectroscopy in the electronic ground state: high resolution spectra analyses and update of line parameters since 2003 , 2013 .

[9] J. Harrison. Infrared absorption cross sections for trifluoromethane , 2013 .

[10] V. Perevalov,et al. High sensitivity Cavity Ring Down spectroscopy of 18O enriched carbon dioxide between 5850 and 7000 cm−1: I. Analysis and theoretical modeling of the 16O12C18O spectrum , 2013 .

[11] A. Dudaryonok,et al. CH3Cl self-broadening coefficients and their temperature dependence , 2013 .

[12] S. Massie,et al. HITRAN 2012 refractive indices , 2013 .

[13] V. M. Devi,et al. Methane line parameters in the HITRAN2012 database , 2013 .

[14] Ben M. Elliott,et al. High resolution spectral analysis of oxygen. III. Laboratory investigation of the airglow bands. , 2013, The Journal of chemical physics.

[15] S. Tashkun,et al. New analytical model for the ozone electronic ground state potential surface and accurate ab initio vibrational predictions at high energy range. , 2013, The Journal of chemical physics.

[16] P. Bernath,et al. ACE-FTS observations of acetonitrile in the lower stratosphere , 2013 .

[17] Daniel M. Peters,et al. Measuring volcanic plume and ash properties from space , 2013 .

[18] D. Jacquemart,et al. Line positions, intensities and self-broadening coefficients for the ν5 band of methyl chloride , 2013 .

[19] J. Fuglestvedt,et al. Global warming potentials and radiative efficiencies of halocarbons and related compounds: A comprehensive review , 2013 .

[20] A. Coustenis,et al. An improved empirical line list for methane in the region of the 2ν3 band at 1.66 μm , 2013 .

[21] J. Lamouroux,et al. The vibrational dependence of half-widths of CO2 transitions broadened by N2, O2, air, and CO2 , 2013 .

[22] D. Jacquemart,et al. Analysis of self-broadened pure rotational and rovibrational lines of methyl chloride at room temperature , 2013 .

[23] V. Perevalov,et al. Cavity ring down spectroscopy of 18O and 17O enriched carbon dioxide near 795 nm , 2013 .

[24] T. Hult,et al. : A Global , 2013 .

[25] P. Bernath,et al. IUPAC critical evaluation of the rotational-vibrational spectra of water vapor, Part III: Energy levels and transition , 2013 .

[26] W. J. Lafferty,et al. Absolute line intensities for ethylene from 1800 to 2350 cm-1. , 2012 .

[27] J. Orphal,et al. Analysis of an 18O and D enhanced water spectrum and new assignments for HD18O and D218O in the near-infrared region (6000–7000 cm−1) using newly calculated variational line lists , 2012 .

[28] Ilse Aben,et al. Improved water vapour spectroscopy in the 4174-4300 cm-1 region and its impact on SCIAMACHY HDO/H2O measurements , 2012 .

[29] S. Tashkun,et al. High sensitivity cavity ring down spectroscopy of 13C16O2 overtone bands near 806nm , 2012 .

[30] D. Jacquemart,et al. Infrared spectroscopy of 17O- and 18O-enriched carbon dioxide in the 1700-8300cm-1 wavenumber region , 2012 .

[31] S. Mikhailenko,et al. CRDS of water vapor at 0.1Torr between 6886 and 7406cm-1 , 2012 .

[32] Peter F. Bernath,et al. Infrared absorption cross sections for methanol , 2012 .

[33] A. Nikitin,et al. Refinements of the WKMC empirical line lists (5852–7919 cm−1) for methane between 80 K and 296 K , 2012 .

[34] M. Höpfner,et al. GRANADA: A Generic RAdiative traNsfer AnD non-LTE population algorithm , 2012 .

[35] Robert R. Gamache,et al. Semiclassical calculations of half-widths and line shifts for transitions in the 30012←00001 and 30013←00001 bands of CO2. III: Self collisions , 2012 .

[36] G. Orton,et al. The application of new methane line absorption data to Gemini-N/NIFS and KPNO/FTS observations of Uranus’ near-infrared spectrum , 2012 .

[37] Robert R. Gamache,et al. Semiclassical calculations of half-widths and line shifts for transitions in the 30012←00001 and 30013←00001 bands of CO2 II: Collisions with O2 and air , 2012 .

[38] J. Tennyson,et al. Line lists for H218O and H217O based on empirical line positions and ab initio intensities , 2012 .

[39] D. Jacquemart,et al. Infrared spectroscopy of CO2 isotopologues from 2200 to 7000 cm−1: I—Characterizing experimental uncertainties of positions and intensities , 2012 .

[40] A. Fayt,et al. Frequency and intensity analyses of the far infrared ν5 band system of cyanogen (C2N2) and applications to Titan , 2012 .

[41] L. Brown,et al. Extended line positions, intensities, empirical lower state energies and quantum assignments of NH3 from 6300 to 7000 cm−1 , 2012 .

[42] S. Eliet,et al. Experimental studies by complementary terahertz techniques and semi-classical calculations of N2- broadening coefficients of CH335Cl , 2012 .

[43] A. Barbe,et al. FTS high resolution spectra of 16O3 in 3500 and 5500 cm−1 regions. First example of new theoretical modelling for a polyad of strongly coupled states , 2012 .

[44] M. Birk,et al. Temperature-dependent air broadening of water in the 1250–1750 cm−1 range , 2012 .

[45] New progress in spectroscopy of ammonia in the infrared 1.5μm range using evolution of spectra from 300 K down to 122 K , 2012 .

[46] V. M. Devi,et al. The quest for ozone intensities in the 9–11 μm region: A retrospective , 2012 .

[47] J. Orphal,et al. The near infrared cavity-enhanced absorption spectrum of methyl cyanide , 2012 .

[48] Attila G. Császár,et al. MARVEL: Measured active rotational–vibrational energy levels. II. Algorithmic improvements☆ , 2012 .

[49] D. Jacquemart,et al. N2-broadening coefficients of methyl chloride at room temperature , 2012 .

[50] S. Mikhailenko,et al. Absorption spectrum of deuterated water vapor enriched by 18 O between 6000 and 9200 cm 1 , 2012 .

[51] M. Tolbert,et al. Optical properties of the products of α-dicarbonyl and amine reactions in simulated cloud droplets. , 2012, Environmental science & technology.

[52] P. Bernath,et al. First remote sensing observations of trifluoromethane (HFC-23) in the upper troposphere and lower stratosphere , 2012 .

[53] V. Boudon,et al. Comparison of line-by-line and band models of near-IR methane absorption applied to outer planet atmospheres , 2012 .

[54] Sergio A. González,et al. Laboratory studies of CHF2CF2CH2OH and CF3CF2CH2OH: UV and IR absorption cross sections and OH rate coefficients between 263 and 358 K. , 2012, The journal of physical chemistry. A.

[55] P. Drossart,et al. Applications of a new set of methane line parameters to the modeling of Titan’s spectrum in the 1.58 μm window , 2012 .

[56] P. Bernath,et al. Mid- and long-wave infrared absorption cross sections for acetonitrile , 2012 .

[57] J. Tennyson,et al. ExoMol: molecular line lists for exoplanet and other atmospheres , 2012, 1204.0124.

[58] P. Cochat,et al. Et al , 2008, Archives de pediatrie : organe officiel de la Societe francaise de pediatrie.

[59] J. Tennyson,et al. Line lists for H 2 18 O and H 2 17 O based on empirical line positions and ab initio intensities , 2012 .

[60] D. Mondelain,et al. The absorption spectrum of methane at 80 and 294 K in the icosad (6717–7589 cm−1): Improved empirical line lists, isotopologue identification and temperature dependence , 2012 .

[61] L. Brown,et al. High resolution investigation of the 7 μm region of the ethane spectrum , 2012 .

[62] L. R. Brown,et al. PRELIMINARY MODELING OF CH$_3$D FROM 4000 TO 4550 cm$^{-1}$ , 2012 .

[63] W. J. Lafferty,et al. The high-resolution infrared spectrum of ethylene in the 1800–2350 cm−1 spectral region , 2011 .

[64] Shanshan Yu,et al. O2 A-band line parameters to support atmospheric remote sensing. Part II: The rare isotopologues , 2011 .

[65] B. Viskolcz,et al. Measurement of absolute absorption cross sections for nitrous acid (HONO) in the near-infrared region by the continuous wave cavity ring-down spectroscopy (cw-CRDS) technique coupled to laser photolysis. , 2011, The journal of physical chemistry. A.

[66] I. Gordon,et al. Revision of spectral parameters for the B- and γ-bands of oxygen and their validation against atmospheric spectra , 2011 .

[67] G. Mellau. Highly excited rovibrational states of HNC , 2011 .

[68] S. Mikhailenko,et al. The absorption spectrum of water in the 1.25 μm transparency window (7408–7920 cm−1) , 2011 .

[69] P. Bernath,et al. Acetonitrile (CH3CN) infrared absorption cross sections in the 3 μm region , 2011 .

[70] G. Villanueva,et al. Ethane in planetary and cometary atmospheres: Transmittance and fluorescence models of the ν7 band at 3.3 μm , 2011 .

[71] C. Linke,et al. Complex refractive indices of Saharan dust samples at visible and near UV wavelengths: a laboratory study , 2011 .

[72] J. Tennyson,et al. A global, high accuracy ab initio dipole moment surface for the electronic ground state of the water molecule. , 2011, The Journal of chemical physics.

[73] L. R. Brown,et al. HIGH RESOLUTION SPECTROSCOPY AND GLOBAL ANALYSIS OF THE TETRADECAD REGION OF METHANE ${}^{12}$CH$_4$ , 2011 .

[74] G. Mellau. Rovibrational eigenenergy structure of the [H,C,N] molecular system. , 2011, The Journal of chemical physics.

[75] V. M. Devi,et al. Absolute line intensities and self-broadened half-width coefficients in the ethylene-1- 13 C bands in the 700-1190 cm -1 region , 2011 .

[76] J. V. Auwera,et al. Toward the understanding of the high resolution infrared spectrum of C2H6 near 3.3 μm , 2011 .

[77] V. M. Devi,et al. A multispectrum analysis of the ν4 band of 13CH4: Widths, shifts, and line mixing coefficients , 2011 .

[78] P. Bernath,et al. Infrared absorption cross-sections for acetaldehyde (CH3CHO) in the 3 μm region , 2011 .

[79] Shui-Ming Hu,et al. High sensitivity cavity ring down spectroscopy of CO2 overtone bands near 790 nm , 2011 .

[80] L. Brown,et al. H 2 16O line strengths revisited: ? 2 and 2 ? 2 ? 2 at 6 m , 2011 .

[81] P. Bernath,et al. Mid-infrared absorption cross sections for acetone (propanone) , 2011 .

[82] S. Mikhailenko,et al. 0 0 0) and (0 1 0) energy levels of the HD18O and D218O molecules from analysis of their ν2 bands , 2011 .

[83] G. Mellau. Complete experimental rovibrational eigenenergies of HCN up to 6880 cm(-1) above the ground state. , 2010, The Journal of chemical physics.

[84] A. Nikitin,et al. First assignment of the 5ν4 and ν2+4ν4 band systems of 12CH4 in the 6287–6550 cm−1 region , 2011 .

[85] P. Bernath,et al. Infrared absorption cross sections for acetone (propanone) in the 3 μm region , 2011 .

[86] M. Antiñolo,et al. Atmospheric lifetimes and global warming potentials of CF3CH2CH2OH and CF3(CH2)2CH2OH. , 2010, Chemphyschem : a European journal of chemical physics and physical chemistry.

[87] V. M. Devi,et al. Multispectrum measurements of spectral line parameters including temperature dependences of N2- and self-broadened half-width coefficients in the region of the ν9 band of 12C2H6 , 2010 .

[88] G. Mellau. The ν1 band system of HNC , 2010 .

[89] Mellau GCh. Complete experimental rovibrational eigenenergies of HNC up to 3743 cm(-1) above the ground state. , 2010 .

[90] S. Mikhailenko,et al. Line positions and energy levels of the 18O substitutions from the HDO/D2O spectra between 5600 and 8800 cm―1 , 2010 .

[91] S. Mikhailenko,et al. GOSAT-2009 methane spectral line list in the 5550–6236 cm−1 range , 2010 .

[92] I. Gordon,et al. High sensitivity CRDS of the a1Δg−X3Σg− band of oxygen near 1.27 μm: Extended observations, quadrupole transitions, hot bands and minor isotopologues , 2010 .

[93] Jonathan Tennyson,et al. HITEMP, the high-temperature molecular spectroscopic database , 2010 .

[94] Jonathan Tennyson,et al. Virtual Atomic and Molecular Data Centre , 2010 .

[95] New line intensity measurements for 12C2H2 around 7.7 μm and HITRAN format line list for applications , 2010 .

[96] V. Tyuterev,et al. Toward an improved ground state potential energy surface of ozone. , 2010, The journal of physical chemistry. A.

[97] David A. Long,et al. O2 A-band line parameters to support atmospheric remote sensing , 2010 .

[98] S. Kassi,et al. Empirical line parameters of methane in the 1.63-1.48 μm transparency window by high sensitivity Cavity Ring Down Spectroscopy , 2010 .

[99] Sara Seager,et al. Exoplanet Atmospheres: Physical Processes , 2010 .

[100] H. Müller,et al. Introduction to submillimeter, millimeter and microwave spectral line catalog , 2010 .

[101] Claus Nielsen,et al. Global Warming Potential of Inhaled Anesthetics: Application to Clinical Use , 2010, Anesthesia and analgesia.

[102] V. M. Devi,et al. Multispectrum analysis of 12CH4 in the ν4 spectral region: II. Self-broadened half widths, pressure-induced shifts, temperature dependences and line mixing , 2010 .

[103] L. Brown,et al. Line positions and strengths of 41 bands including 10 OCS isotopologues in the 3850–4200 cm−1 region , 2010 .

[104] L. Brown,et al. Determination of the low energy values of 13CH4 transitions in the 2ν3 region near 1.66 μm from absorption spectra at 296 and 81 K , 2010 .

[105] P. Bernath,et al. Infrared absorption cross sections for propane (C3H8) in the 3 μm region , 2010 .

[106] S. Kassi,et al. Temperature dependence of the absorption spectrum of CH4 by high resolution spectroscopy at 81 K: (I) The region of the 2ν3 band at 1.66 μm , 2010 .

[107] V. M. Devi,et al. Multispectrum analysis of the ν9 band of 12C2H6: Positions, intensities, self- and N2-broadened half-width coefficients , 2010 .

[108] M. Trainer,et al. Optical properties of Titan and early Earth haze laboratory analogs in the mid-visible , 2010 .

[109] S. Kassi,et al. Temperature dependence of the absorption spectrum of CH4 by high resolution spectroscopy at 81 K: (II) The icosad region (1.49–1.30 μm) , 2010 .

[110] D. Jacquemart,et al. Formaldehyde around 3.5 and 5.7-μm: Measurement and calculation of broadening coefficients , 2010 .

[111] S. Kassi,et al. High sensitivity absorption spectroscopy of methane at 80 K in the 1.58 μm transparency window: Temperature dependence and importance of the CH3D contribution , 2010 .

[112] A. Coustenis,et al. Titan trace gaseous composition from CIRS at the end of the Cassini–Huygens prime mission , 2010 .

[113] A. Fayt,et al. THE ν8 BENDING MODE OF DIACETYLENE: FROM LABORATORY SPECTROSCOPY TO THE DETECTION OF 13C ISOTOPOLOGUES IN TITAN'S ATMOSPHERE , 2010 .

[114] W. J. Lafferty,et al. High resolution analysis of the ν26 and 2ν9–ν9 bands of propane: modelling of Titan's infrared spectrum at 13.4 μm , 2010 .

[115] S. Kassi,et al. Accurate determination of low state rotational quantum numbers (J < 4) from planar-jet and liquid nitrogen cell absorption spectra of methane near 1.4 micron. , 2010, Physical chemistry chemical physics : PCCP.

[116] R. Tolchenov,et al. A high accuracy computed line list for the HDO molecule , 2010 .

[117] P. Bernath,et al. Infrared absorption cross sections for ethane (C2H6) in the 3 μm region , 2010 .

[118] G. Mellau. Complete experimental rovibrational eigenenergies of HNC up to 3743 cm(-1) above the ground state. , 2010, The Journal of chemical physics.

[119] P. Bernath,et al. IUPAC critical evaluation of the rotational-vibrational spectra of water vapor. Part I—Energy levels and transition wavenumbers , 2013 .

[120] L. Brown,et al. Line strength measurements of carbonyl sulfide (16O12C32S) in the 2v3, v1+2v2+v3, and 4v2+v3 bands , 2009 .

[121] Jean-Michel Hartmann,et al. A simple empirical model for the collisional spectral shift of air-broadened CO2 lines , 2009 .

[122] D. Jacquemart,et al. Line intensities of 12C2H2 in the 7.7 μm spectral region , 2009 .

[123] Experimental line parameters of the b1 Sigma(g)+ <-- X3 Sigma(g)- band of oxygen isotopologues at 760 nm using frequency-stabilized cavity ring-down spectroscopy. , 2009, The journal of physical chemistry. A.

[124] H. Pickett,et al. Laboratory measurements and theoretical calculations of O_2 A band electric quadrupole transitions , 2009 .

[125] S. Atreya,et al. Titan's carbon budget and the case of the missing ethane. , 2009, The journal of physical chemistry. A.

[126] M. Matricardi. Technical Note: An assessment of the accuracy of the RTTOV fast radiative transfer model using IASI data , 2009 .

[127] J. Flaud,et al. Titan’s prolific propane: The Cassini CIRS perspective , 2009, 0909.1794.

[128] Gérard Gouesbet,et al. Generalized Lorenz-Mie theories, the third decade: A perspective , 2009 .

[129] Lieven Clarisse,et al. IASI measurements of reactive trace species in biomass burning plumes , 2009 .

[130] S. Mikhailenko,et al. Isotopic substitution shifts in methane and vibrational band assignment in the 5560–6200 cm−1 region , 2009 .

[131] H. Müller,et al. Interactions between vibrational polyads of propyne, H3CCCH: Rotational and rovibrational spectroscopy of the levels around 1000 cm−1 , 2009 .

[132] D. Jacquemart,et al. Line mixing calculation in the ν6 Q-branches of N2-broadened CH3Br at low temperatures , 2009 .

[133] L. Brown,et al. Global modeling of the lower three polyads of PH3: Preliminary results , 2009 .

[134] A. Perrin,et al. Rotational transitions within the 21, 31, 41, and 61 states of formaldehyde H212C16O , 2009 .

[135] A. Nikitin,et al. Vibration energy levels of the PH3, PH2D, and PHD2 molecules calculated from high order potential energy surface. , 2009, The Journal of chemical physics.

[136] V. Boudon,et al. High-resolution spectroscopy and analysis of the ν3/2ν4 dyad of CF4 , 2009 .

[137] P. Bernath,et al. Global upper-tropospheric formaldehyde: seasonal cycles observed by the ACE-FTS satellite instrument , 2009 .

[138] J. Hartmann,et al. Theoretical calculations of N2-broadened half-widths of ν5 transitions of HNO3 , 2009 .

[139] P. Bernath,et al. IUPAC critical evaluation of the rotational–vibrational spectra of water vapor. Part I—Energy levels and transition wavenumbers for H217O and H218O , 2009 .

[140] A. Vandaele,et al. Fourier transform measurements of SO2 absorption cross sections: I. Temperature dependence in the 24 000-29 000 cm-1 (345-420 nm) region , 2009 .

[141] Ann Carine Vandaele,et al. Fourier transform measurements of SO 2 absorption cross sections: II. , 2009 .

[142] Agnes Perrin,et al. Absolute line intensities measurements and calculations for the 5.7 and 3.6 μm bands of formaldehyde , 2009 .

[143] A. Nikitin,et al. Measurements of N2-and O2-broadening and shifting parameters of methane spectral lines in the 5550-6236 cm-1 region , 2009 .

[144] A. Perrin,et al. High-resolution Fourier transform study of the ν3 fundamental band of trans-formic acid , 2009 .

[145] W. J. Lafferty,et al. Line intensities for the ? 1, ? 3 and ? 1+ ? 3 bands of 34SO 2 , 2009 .

[146] V. M. Devi,et al. Multispectrum analysis of 12CH4 in the v4 band: I. Air-broadened half widths, pressure-induced shifts, temperature dependences and line mixing , 2009 .

[147] Ann Carine Vandaele,et al. UV Fourier transform absorption cross sections of benzene, toluene, meta-, ortho-, and para-xylene , 2009 .

[148] J. Orphal,et al. Some improvements of the HNO3 spectroscopic parameters in the spectral region from 600 to 950 cm−1 , 2009 .

[149] J.-Y. Mandin,et al. Line intensities of 12C2H2 in the 1.3, 1.2, and 1 μm spectral regions , 2009 .

[150] D. Jacquemart,et al. The IR spectrum of 12C2H2 : Line intensity measurements in the 1.4μm region and update of the databases , 2009 .

[151] J. Orphal,et al. Experimental intercomparison of the absorption cross-sections of nitrous acid (HONO) in the ultraviolet and mid-infrared spectral regions , 2009 .

[152] V. Boudon,et al. Global analysis of the high resolution infrared spectrum of methane 12CH4 in the region from 0 to 4800 cm−1 , 2009 .

[153] L. Brown,et al. Titan at 3 microns: Newly identified spectral features and an improved analysis of haze opacity , 2009 .

[154] E. Lellouch,et al. Pluto's lower atmosphere structure and methane abundance from high-resolution spectroscopy and stellar occultations , 2009, 0901.4882.

[155] M. Tretyakov,et al. Collisional broadening and shifting of OCS rotational spectrum lines , 2009 .

[156] M. Ridolfi,et al. Validation of HNO3 spectroscopic parameters using atmospheric absorption and emission measurements , 2009 .

[157] W. J. Lafferty,et al. 34S16O2: High-resolution analysis of the (0 3 0), (1 0 1), (1 1 1), (0 0 2) and (2 0 1) vibrational states; determination of equilibrium rotational constants for sulfur dioxide and anharmonic vibrational constants , 2009 .

[158] P. Bernath,et al. Infrared absorption cross sections for ethane ( C 2 H 6 ) in the 3 m m region , 2009 .

[159] S. Kassi,et al. Empirical low energy values for methane transitions in the 5852–6181 cm−1 region by absorption spectroscopy at 81 K , 2009 .

[160] V. Malathy Devi,et al. Temperature dependences for air-broadened Lorentz half-width and pressure shift coefficients in the 30013/00001 and 30012/00001 bands of CO 2 near 1600 nm 1 , 2009 .

[161] S. Tashkun,et al. High sensitivity CW-CRDS spectroscopy of 12C16O2, 16O12C17O and 16O12C18O between 5851 and 7045 cm−1: Line positions analysis and critical review of the current databases , 2008 .

[162] S. Tashkun,et al. New CW-CRDS measurements and global modeling of 12C16O2 absolute line intensities in the 1.6 μm region , 2008 .

[163] Johannes Orphal,et al. High-resolution Fourier-transform cavity-enhanced absorption spectroscopy in the near-infrared using an incoherent broad-band light source. , 2008, Optics express.

[164] W. J. Lafferty,et al. High resolution analysis of the rotational levels of the (0 0 0), (0 1 0), (1 0 0), (0 0 1), (0 2 0), (1 1 0) and (0 1 1) vibrational states of 34S16O2 , 2008 .

[165] Measured integrated band intensities and simulated line-by-line spectra for 12C2HD between 25 and 2.5 μm, and new global vibration–rotation parameters for the bending vibrations , 2008 .

[166] V. Boudon,et al. The partition sum of methane at high temperature , 2008 .

[167] A. Coustenis,et al. Detection of C2HD and the D/H ratio on Titan , 2008 .

[168] A. Barbe,et al. Revised molecular parameters for 32SO2 and 34SO2 from high resolution study of the infrared spectrum in the 7–8μm wavelength region , 2008 .

[169] Jean-Michel Hartmann,et al. An improved O2 A band absorption model and its consequences for retrievals of photon paths and surface pressures , 2008 .

[170] W. J. Lafferty,et al. The H216O molecule : Line position and line intensity analyses up to the second triad , 2008 .

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[172] V. M. Devi,et al. Line strengths of 16O13C16O, 16O13C18O, 16O13C17O and 18O13C18O between 2200 and 6800cm−1 , 2008 .

[173] Daniel Hurtmans,et al. Nitrogen-broadened lineshapes in the oxygen A-band: Experimental results and theoretical calculations , 2008 .

[174] L. Brown,et al. High-accuracy transition frequencies for the O2 A-band , 2008 .

[175] Jean-Paul Champion,et al. XTDS and SPVIEW: Graphical tools for the analysis and simulation of high-resolution molecular spectra , 2008 .

[176] V. Perevalov,et al. A (nearly) complete experimental linelist for 13C16O2, 16O13C18O, 16O13C17O, 13C18O2 and 17O13C18O by high-sensitivity CW-CRDS spectroscopy between 5851 and 7045 cm−1 , 2008 .

[177] A. Barbe,et al. Update of line parameters of ozone in the 2550-2900 cm(-1) region. , 2008, Applied optics.

[178] Brian J. Drouin,et al. Torsion–rotation global analysis of the first three torsional states (νt = 0, 1, 2) and terahertz database for methanol , 2008 .

[179] Peter A. Crozier,et al. Brown Carbon Spheres in East Asian Outflow and Their Optical Properties , 2008, Science.

[180] A. Campargue,et al. Comment on “Spectroscopic database of CO2 line parameters: 4300–7000 cm–1” , 2008 .

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[182] D. Romanini,et al. The near-infrared (1.30-1.70 microm) absorption spectrum of methane down to 77 K. , 2008, Physical chemistry chemical physics : PCCP.

[183] R. Tolchenov,et al. Shift of the centers of H2O absorption lines in the region of 1.06 μm , 2008 .

[184] R. Georges,et al. High-temperature emission spectroscopy of methane , 2008 .

[185] A. Perrin,et al. Corrigendum to “New analysis of the ν2 band of formaldehyde (H212C16O): Line positions for the ν2, ν3, ν4 and ν6 interacting bands” [J. Mol. Spectrosc. 245 (2007) 141–144] , 2008 .

[186] S. Tashkun,et al. Global modeling of 13C16O2 absolute line intensities from CW-CRDS and FTS measurements in the 1.6 and 2.0 μm regions , 2008 .

[187] R. Tolchenov,et al. Water vapor line width and shift calculations with accurate vibration–rotation wave functions , 2008 .

[188] A. Coustenis,et al. Isotopic Ratios in Titan’s Atmosphere from Cassini CIRS Limb Sounding: HC3N in the North , 2008 .

[189] V. I. Perevalov,et al. CDSD-296 (Carbon Dioxide Spectroscopic Databank): Updated and Enlarged Version for Atmospheric Applications , 2008 .

[190] V. M. Devi,et al. Quantitative measurement of integrated band intensities of benzene vapor in the mid-infrared at 278, 298, and 323 K , 2008 .

[191] Roman I. Ovsyannikov,et al. Water line lists close to experimental accuracy using a spectroscopically determined potential energy surface for H2(16)O, H2(17)O, and H2(18)O. , 2008, The Journal of chemical physics.

[192] A. Coustenis,et al. The 12C/13C isotopic ratio in Titan hydrocarbons from Cassini/CIRS infrared spectra , 2008 .

[193] Jonathan Tennyson,et al. Comparison between theoretical calculations and high-resolution measurements of pressure broadening for near-infrared water spectra , 2008 .

[194] Methane spectroscopy in the near infrared and its implication on atmospheric retrievals , 2008 .

[195] A. Barbe,et al. The near infrared spectrum of ozone by CW-cavity ring down spectroscopy between 5850 and 7000 cm(-1): new observations and exhaustive review. , 2008, Physical chemistry chemical physics : PCCP.

[196] L. Sinitsa,et al. Shifting temperature dependence of nitrogen-broadened lines in the ν 2 band of H2O , 2008 .

[197] A. Vandaele,et al. First observations of SO2 above Venus' clouds by means of Solar Occultation in the Infrared , 2008 .

[198] Franz Schreier,et al. The GEISA spectroscopic database: Current and future archive for Earth and planetary atmosphere studies , 2008 .

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