Theoretical Reims-Tomsk Spectral data

Guest   |  

Measurements and Analyses

  1. Straley, J., Tindal, C., Nielsen, H., 1942, The vibration-rotation spectrum of GeH4, Physical Review, 62 (3-4), 161-165.
  2. Arnett, R.L., Crawford Jr., B.L., 1950, The vibrational frequencies of ethylene, J. Chem. Phys., 18 (1), 118--126.
  3. Shimanouchi, T., Nakagawa, I., Hiraishi, J., Ishii, M., 1966, Force constants of CF4, SiF4, BF3, CH4, SiH4, NH3, and PH3, Journal of Molecular Spectroscopy, 19 (1-4), 78-107.
  4. Ozier, I., Ho, W., Birnbaum, G., 1969, Pure rotational spectrum and electric dipole moment of CH3D, J. Chem. Phys., 51 (11), 4873--4880.
  5. Deroche, J.C., 1973, Analyse de la bande de vibration-rotation nu9 du methane bideutéré vers 8, J. Phys., 34, 559--569.
  6. Deroche, J.C., Graner, G., 1973, Ground-state molecular constants of bideuterated methane, J. Mol. Spectrosc., 45 (2), 322--323.
  7. Deroche, J.C., Graner, G., Cabana, A., 1975, High-resolution infrared spectrum of CH2D2. The nu3 fundamental band at 7 m, J. Mol. Spectrosc., 57 (3), 331--347.
  8. Deroche, J.C., Guelachvili, G., 1975, High resolution infrared spectrum of CH2D2. The nu1 and nu6 fundamental bands near 3000 cm^-1, J. Mol. Spectrosc., 56 (1), 76--87.
  9. Deroche, J.C., Pinson, P., 1975, High-resolution infrared spectrum of CH2D2. The nu9 fundamental band at 8 u m, J. Mol. Spectrosc., 58 (2), 229--238.
  10. Willetts, D., Jones, W., Robiette, A., 1975, Vibration-rotation Raman spectra of the nu3 bands of SiH4 and SiD4, J. Mol. Spectrosc., 55 (1-3), 200-216.
  11. Deroche, J.C., Graner, G., Bendtsen, J., Brodersen, S., 1976, The nu5 and nu3 Raman bands of CH2D2, J. Mol. Spectrosc., 62 (1), 68--79.
  12. Hilico, J.C., Champion, J.P., Pierre, G., 1976, The ground vibronic state of tetrahydrides, J. Mol. Spectrosc., 60 (1-3), 422--425.
  13. Akiyama, M., Nakagawa, T., Kuchitsu, K., 1977, High-resolution infrared spectrum of the nu2 and nu8 bands of CH2D2, J. Mol. Spectrosc., 64 (1), 109--124.
  14. Cabana, A., Gray, D., Mills, I., Robiette, A., 1977, Vibration-rotation coupling between nu1 and nu3 in SiH4, Journal of Molecular Spectroscopy, 66 (1), 174-176.
  15. Cabana, A., Gray, D., Robiette, A., Pierre, G., 1978, Analysis of the nu3 and nu1 infra-red bands of SiH4, Molecular Physics, 36 (5), 1503-1516.
  16. Dang-Nhu, M., Pine, A.S., Robiette, A.G., 1979, Spectral intensities in the nu3 bands of ^12CH4 and ^13CH4, J. Mol. Spectrosc., 77 (1), 57--68.
  17. Deroche, J.C., Kauppinen, J., Kyrö, E., 1979, nu7 and nu9 bands of formic acid near 16 m, J. Mol. Spectrosc., 78 (3), 379--394.
  18. Hilico, J.C., Degni, J., Champion, J.P., Guelachvili, G., 1980, Analysis of the nu2 + nu3 band of ^12CH4 and ^13CH4, J. Mol. Spectrosc., 81 (2), 277--302.
  19. Pierre, G., Champion, J.P., Guelachvili, G., Pascaud, E., Poussigue, G., 1983, Rotational analysis of vibrational polyads in tetrahedral molecules: Line parameters of the infrared spectrum of ^12CH4 in the range 2250-3260 cm^-1-Theory versus experiment, J. Mol. Spectrosc., 102 (2), 344--360.
  20. Hilico, J.C., Loete, M., Brown, L.R., 1985, Line strengths of the nu3 - nu4 band of methane, J. Mol. Spectrosc., 111 (1), 119--137.
  21. Campargue, A., Stoeckel, F., Terrile, M., 1986, Intracavity spectroscopy of overtone transition in SiH4,SiH2Cl2, and SiHCl3, Chem. Phys., 110 (1), 145-152.
  22. Hilico, J.C., Loete, M., Champion, J.P., Destombes, J.L., Bogey, M., 1987, The millimeter-wave spectrum of methane, J. Mol. Spectrosc., 122 (2), 381--389.
  23. Pascaud, E., Poussigue, G., Guelachvili, G., Lolck, J.E., 1987, The pentad of 12CD4: Line parameter analysis of the IR spectrum in the range 1775-2350 cm^-1, J. Mol. Spectrosc., 121 (1), 20--49.
  24. Tarrago, G., Delaveau, M., Fusina, L., Guelachvili, G., 1987, Absorption of 12CH3D at 6-10 m: Triad nu3, nu5, nu6, J. Mol. Spectrosc., 126 (1), 149--158.
  25. Champion, J.P., Hilico, J.C., Brown, L.R., 1989, The vibrational ground state of ^12CH4 and ^13CH4, J. Mol. Spectrosc., 133 (2), 244--255.
  26. Champion, J.P., Hilico, J.C., Wenger, C., Brown, L.R., 1989, Analysis of the nu2 nu4 dyad of ^12CH4 and ^13CH4, J. Mol. Spectrosc., 133 (2), 256--272.
  27. Dam, N., Engeln, R., Reuss, J., Pine, A., Fayt, A., 1990, Ethylene hot bands from molecular jet double-resonance spectroscopy, J. Mol. Spectrosc., 139 (1), 215-235.
  28. Brown, L.R., Margolis, J.S., Champion, J.P., Hilico, J.C., Jouvard, J.M., Loete, M., Chackerian Jr., C., Tarrago, G., Benner, D.C., 1992, Methane and its isotopes: Current status and prospects for improvement, J. Quant. Spectrosc. Radiat. Transf., 48 (5-6), 617--628.
  29. Hilico, J.C., Loete, M., Brown, L.R., 1992, Line strengths of the nu2 + nu3 and nu3 - nu2 bands of methane (^12CH4), J. Mol. Spectrosc., 152 (1), 229--251.
  30. Hilico, J.C., Champion, J.P., Toumi, S., Tyuterev, V.G., Tashkun, S.A., 1994, New Analysis of the Pentad System of Methane and Prediction of the (Pentad-Pentad) Spectrum, J. Mol. Spectrosc., 168 (2), 455--476.
  31. Oomens, J., Oudejans, L., Reuss, J., Fayt, A., 1994, The nu7 + nu9- nu7 hot band in ethylene studied by double resonance techniques, Chem. Phys., 187 (1-2), 57-72.
  32. Gabard, T., Nikitin, A., Champion, J.P., Pierre, G., Pine, A.S., 1995, 23 Band of 12CF4 and Its Simultaneous Analysis with nu3, J. Mol. Spectrosc., 170 (2), 431--448.
  33. Oomens, J., Reuss, J., Mellau, G., Klee, S., Gulaczyk, I., Fayt, A., 1996, The ethylene hot band spectrum near 3000 cm^-1, J. Mol. Spectrosc., 180 (2), 236-248.
  34. Georges, R., Bach, M., Herman, M., 1999, The vibrational energy pattern in ethylene (^12C2H4), Mol. Phys., 97 (1-2), 279-292.
  35. Tan, T., Goh, K., Ong, P., Teo, H., 1999, High-resolution Fourier transform infrared spectroscopy and analysis of the nu12 fundamental band of ethylene-d4, Chem. Phys. Letters, 315 (1-2), 82-86.
  36. Tan, T., Goh, K., Ong, P., Teo, H., 2000, High-resolution FTIR spectrum of the nu9 band of ethylene-d4 (C2D4), J. Mol. Spectrosc., 202 (2), 249-252.
  37. Tan, T., Lau, S., Ong, P., Goh, K., Teo, H., 2000, High-resolution Fourier transform infrared spectrum of the nu12 fundamental band of ethylene (C2H4), J. Mol. Spectrosc., 203 (2), 310-313.
  38. Hilico, J.C., Robert, O., Loëte, M., Toumi, S., Pine, A.S., Brown, L.R., 2001, Analysis of the interacting octad system of ^12CH4, J. Mol. Spectrosc., 208 (1), 1--13.
  39. Robert, O., Hilico, J.C., Loëte, M., Champion, J.P., Browny, L.R., 2001, First assignment and line strengths of the 4v4 band of ^12CH4 near 1.9 m, J. Mol. Spectrosc., 209 (1), 14--23.
  40. Tan, T., Goh, K., Ong, P., Teo, H., 2001, Analysis of the nu12 band of ethylene-13C2 by high-resolution FTIR spectroscopy, J. Mol. Spectrosc., 207 (2), 189-192.
  41. Hippler, M., Quack, M., 2002, High-resolution Fourier transform infrared and cw-diode laser cavity ringdown spectroscopy of the ν2+2ν3 band of methane near 7510 cm-1 in slit jet expansions and at room temperature, J. Chem. Phys., 116 (14), 6045-6055.
  42. Brown, L.R., Benner, D.C., Champion, J.P., Devi, V.M., Fejard, L., Gamache, R.R., Gabard, T., Hilico, J.C., Lavorel, B., Loete, M., Mellau, G.C., Nikitin, A., Pine, A.S., Predoi-Cross, A., Rinsland, C.P., Robert, O., Sams, R.L., Smith, M.A.H., Tashkun, S.A., Tyuterev, V., 2003, Methane line parameters in HITRAN, J. Quant. Spectrosc. Radiat. Transf., 82 (1-4), 219--238.
  43. Brown, L.R., Nikitin, A., Chris Benner, D., Malathy Devi, V., Smith, M.A.H., Fejard, L., Champion, J.P., Tyuterev, V., Sams, R.L., 2004, Line intensities of CH4D in the Triad region: 6-10 m, J. Mol. Struct., 695-696, 181--188.
  44. Ulenikov, O.N., Bekhtereva, E.S., Grebneva, S.V., Hollenstein, H., Quack, M., 2005, High resolution Fourier transform spectroscopy of CH2D2 in the region 2350-2650 cm^-1: The bands nu5 + nu7, 2_9, nu3 + nu4, nu3 + nu7 and nu5 + nu9, Phys. Chem. Chem. Phys., 7 (6), 1142--1150.
  45. Boudon, V., Rey, M., Loëte, M., 2006, The vibrational levels of methane obtained from analyses of high-resolution spectra, J. Quant. Spectrosc. Radiat. Transfer, 98, 394--404.
  46. Niederer, H.M., Albert, S., Bauerecker, S., Boudon, V., Champion, J.P., Quack, M., 2008, Global analysis of the infrared spectrum of ^13CH4: Lines in the region 0 to 3200 cm^-1, Chimia, 62 (4), 273--276.
  47. Rotger, M., Boudon, V., Vander Auwera, J., 2008, Line positions and intensities in the nu12 band of ethylene near 1450 cm^-1: An experimental and theoretical study, J. Quant. Spectrosc. Radiat. Transf., 109 (6), 952-962.
  48. Albert, S., Bauerecker, S., Boudon, V., Brown, L.R., Champion, J.P., Loëte, M., Nikitin, A., Quack, M., 2009, Global analysis of the high resolution infrared spectrum of methane ^12CH4 in the region from 0 to 4800 cm^-1, Chem. Phys., 356 (1-3), 131--146.
  49. Campargue, A., Wang, L., Liu, A.W., Hu, S.M., Kassi, S., 2010, Empirical line parameters of methane in the 1.63-1.48 m transparency window by high sensitivity Cavity Ring Down Spectroscopy, Chem. Phys., 373 (3), 203--210.
  50. Campargue, A., Wang, L., Kassi, S., Masát, M., Votava, O., 2010, Temperature dependence of the absorption spectrum of CH4 by high resolution spectroscopy at 81K: (II) The icosad region (1.49-1.30m), J. Quant. Spectrosc. Radiat. Transf., 111 (9), 1141--1151.
  51. Lebron, G., Tan, T., 2010, High-resolution FTIR measurement and analysis of the nu3 band of C2H3D, J. Mol. Spectrosc., 261 (2), 119-123.
  52. Ulenikov, O.N., Bekhtereva, E.S., Albert, S., Bauerecker, S., Hollenstein, H., Quack, M., 2010, High resolution infrared spectroscopy and global vibrational analysis for the CH4D and CHD4 isotopomers of methane, Mol. Phys., 108 (7-9), 1209--1240.
  53. Votava, O., Masát, M., Pracna, S., Camparue, A., 2010, 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, Phys. Chem. Chem. Phys., 12, 3145--3155.
  54. Lebron, G., Tan, T., 2011, Improved rovibrational constants for the nu12 band of C2H3D, J. Mol. Spectrosc., 265 (1), 55-57.
  55. Mondelain, D., Kassi, S., Wang, L., Campargue, A., 2011, The 1.28 m transparency window of methane (7541-7919 cm^-1): Empirical line lists and temperature dependence (80 K-300 K), Phys. Chem. Chem. Phys., 13 (17), 7985--7996.
  56. Ben Hassen, A., Kwabia Tchana, F., Flaud, J.-M., Lafferty, W., Landsheere, X., Aroui, H., 2012, Absolute line intensities for ethylene from 1800 to 2350 cm^-1, J. Mol. Spectrosc., 282 (1), 30-33.
  57. Campargue, A., Wang, L., Mondelain, D., Kassi, S., Bézard, B., Lellouch, E., Coustenis, A., Bergh, C.D., Hirtzig, M., Drossart, P., 2012, An empirical line list for methane in the 1.26-1.71m region for planetary investigations (T=80-300K). Application to Titan, Icarus, 219 (1), 110--128.
  58. Campargue, A., Leshchishina, O., Wang, L., Mondelain, D., Kassi, S., Nikitin, A.V., 2012, Refinements of the WKMC empirical line lists (5852-7919cm -1) for methane between 80K and 296K, J. Quant. Spectrosc. Radiat. Transf., 113 (15), 1855--1873.
  59. Lebron, G.B., Tan, T.L., 2012, Integrated band intensities of ethylene (^12C2H4) by FRourier Transform Infrared Spectroscopy, Int. J. Spectrosc., 2012, 1-5.
  60. Lebron, G., Tan, T., 2012, The high-resolution FTIR spectrum of the nu4 + nu8 band of trans-d 2-ethylene (trans-C2H2D2), J. Mol. Spectrosc., 271 (1), 44-49.
  61. Aouididi, H., Rotger, M., Bermejo, D., Martnez, R.Z., Boudon, V., 2013, High-resolution stimulated Raman spectroscopy and analysis of the nu1/_5 (C-H) stretching dyad of C2H 4, J. Raman Spectrosc., 44 (4), 590--596.
  62. Ba, Y.A., Wenger, C., Surleau, R., Boudon, V., Rotger, M., Daumont, L., Bonhommeau, D.A., Tyuterev, V.G., Dubernet, M.L., 2013, MeCaSDa and ECaSDa: Methane and ethene calculated spectroscopic databases for the virtual atomic and molecular data centre, J. Quant. Spectrosc. Radiat. Transf., 130, 62--68.
  63. Campargue, A., Leshchishina, O., Wang, L., Mondelain, D., Kassi, S., 2013, The WKLMC empirical line lists (5852-7919 cm^-1) for methane between 80 K and 296 K: "Final" lists for atmospheric and planetary applications, J. Mol. Spectrosc., 291, 16--22.
  64. Daumont, L., Nikitin, A.V., Thomas, X., Régalia, L., Von der Heyden, P., Tyuterev, V., Rey, M., Boudon, V., Wenger, C., Loëte, M., Brown, L.R., 2013, New assignments in the 2m transparency window of the ^12CH4 Octad band system, J. Quant. Spectrosc. Radiat. Transf., 116, 101--109.
  65. Ulenikov, O., Gromova, O., Aslapovskaya, Y., Horneman, V.-M., 2013, High resolution spectroscopic study of C2H4: Re-analysis of the ground state and nu4, nu7, nu10, and nu12 vibrational bands, J. Quant. Spectrosc. Radiat. Transf., 118, 14-25.
  66. Gabona, M., Tan, T., Woo, J., 2014, High-resolution FTIR analysis and rotational constants for the nu12 band of ethylene-1-13C (13C12CH4), J. Mol. Spectrosc., 305, 22-24.
  67. Gabona, M., Tan, T., 2014, Coriolis interaction of the nu2 + nu12 band with nu12 + 210 of cis-C2H2D 2 by high resolution FTIR spectroscopy, J. Mol. Spectrosc., 299, 31-34.
  68. Gabona, M., Tan, T., 2014, Improved ground state and v12 = 1 state rovibrational constants for ethylene-13C2 (^13C2H4), J. Mol. Spectrosc., 299, 35-37.
  69. Malathy Devi, V., Kleiner, I., Sams, R., Brown, L., Benner, D., Fletcher, L., 2014, Line positions and intensities of the phosphine (PH3) Pentad near 4.5 μm, J. of Mol. Spectrosc., 298, 11-23.
  70. Malathy Devi, V., Benner, D., Kleiner, I., Sams, R., Fletcher, L., 2014, Line shape parameters of PH3 transitions in the Pentad near 4-5 μm: Self-broadened widths, shifts, line mixing and speed dependence, J. of Mol. Spectrosc., 302, 17-33.
  71. Alkadrou, A., Bourgois, M.T., Rotger, M., Boudon, V., Vander Auwera, J., 2015, Global frequancy and intensity analysis of the 10/_7/4/12 band system of ^12C2H4 at 10 using the D2h Top Data System, To be submitted.
  72. Béguier, S., Liu, A., Campargue, A., 2015, An empirical line list for methane near 1?m (9028-10,435 cm-1), J. Quant. Spectrosc. Radiat. Transf., 166, 6-12.
  73. Devi, V., Benner, D., Sung, K., Crawford, T., Yu, S., Brown, L., Smith, M., Mantz, A., Boudon, V., Ismail, S., 2015, Self- and air-broadened line shapes in the 2?<inf>3</inf> P and R branches of 12CH<inf>4</inf>, Journal of Molecular Spectroscopy, 315, 114-136.
  74. Ulenikov, O., Gromova, O., Bekhtereva, E., Maul, C., Bauerecker, S., Gabona, M., Tan, T., 2015, High resolution ro-vibrational analysis of interacting bands nu4, nu7, nu10, and nu12 of ^13C2H4, J. Quant. Spectrosc. Radiat. Transf., 151, 224-238.
  75. Campargue, A., B�guier, S., Zbiri, Y., Mondelain, D., Kassi, S., Karlovets, E.V., Nikitin, A.V., Rey, M., Starikova, E.N., Tyuterev, V., 2016, The 13CH4 absorption spectrum in the Icosad range (6600-7692 cm-1) at 80K and 296 K: empirical line lists and temperature dependence , J. Mol. Spectrosc. accepted .