Bibliography for HNO3
  1. Tabataba-Vakili, F., Grenfell, J. L., Griessmeier, J. -M., Rauer, H., "Atmospheric effects of stellar cosmic rays on Earth-like exoplanets orbiting M-dwarfs", Astronomy and Astrophysics 585, A96 (2016). [link to article][16TaGrGr.HNO3]
  2. Pavlyuchko, A. I., Yurchenko, S. N., Tennyson, J., "ExoMol molecular line lists – XI. The spectrum of nitric acid", Monthly Notices of the Royal Astronomical Society 452, 1702-1706 (2015). [link to article][15PaYuTe.HNO3]
  3. Hill, C., Yurchenko, S. N., Tennyson, J., "Temperature-dependent molecular absorption cross sections for exoplanets and other atmospheres", Icarus 226, 1673-1677 (2013). [link to article][13HiYuTe.SO2]
  4. Perrin, A., "New analysis of the ν3 and ν4 bands of HNO3 in the 7.6 μm region", Journal of Physical Chemistry A 117, 13236-13248 (2013). [link to article][13Perrin.HNO3]
  5. Garcia-Borras, M., Sola, M., Lauvergnat, D., Reis, H., Luis, J. M., Kirtman, B., "A full dimensionality approach to evaluate the nonlinear optical properties of molecules with large amplitude anharmonic tunneling motions", Journal of Chemical Theory and Computation 9, 520-532 (2013). [link to article][13GaSoLa.HNO3]
  6. Avila, G., Carrington, Jr., T., "Solving the vibrational Schrödinger equation using bases pruned to include strongly coupled functions and compatible quadratures", Journal of Chemical Physics 137 (2012). [link to article][12AvCaxx.HNO3]
  7. Wang, S., Bianco, R., Hynes, J. T., "An atmospherically relevant acid: HNO3", Computational and Theoretical Chemistry 965, 340-345 (2011). [link to article][11WaBiHy.HNO3]
  8. Petkie, D. T., Helminger, P., Medvedev, I. R., De Lucia, F. C., "The rotational spectra of the υ8 = υ9 = 1 and υ6 = υ7 = 1 interacting vibrational states of nitric acid (HNO3)", Journal of Molecular Spectroscopy 261, 129-135 (2010). [link to article][10PeHeMe.HNO3]
  9. Nonella, M., Suter, H. U., Huber, J. Robert, "An ab initio and dynamics study of the photodissociation of nitric acid HNO3", Chemical Physics Letters 487, 28-31 (2010). [link to article][10NoSuHu.HNO3]
  10. Lauvergnat, D., Nauts, A., "Torsional energy levels of nitric acid in reduced and full dimensionality with ELVIBROT and TNUM", Physical Chemistry Chemical Physics 12, 8405-8412 (2010). [link to article][10LaNaxx.HNO3]
  11. Gomez, L., Tran, H., Perrin, A., Gamache, R. R., Laraia, A., Orphal, J., Chelin, P., Fellows, C. E., Hartmann, J. -M., "Some improvements of the HNO3 spectroscopic parameters in the spectral region from 600 to 950 cm−1", Journal of Quantitative Spectroscopy and Radiative Transfer 110, 675-686 (2009). [link to article][09GoTrPe.HNO3]
  12. Gutle, C., Demaison, J., Rudolph, H. D., "Anharmonic force field and equilibrium structure of nitric acid", Journal of Molecular Spectroscopy 254, 99-107 (2009). [link to article][09GuDeRu.HNO3]
  13. Petkie, D. T., Kipling, M., Jones, A., Helminger, P., Medvedev, I. R., Atsuko, M., Behnke, M., Drouin, B. J., Miller, C. E., "The rotational spectra of the 61, 71, 81, 91 and 51/92 vibrational states of H15NO3", Journal of Molecular Spectroscopy 251, 358-364 (2008). [link to article][08PeKiJo.HNO3]
  14. Bianco, R., Wang, S., Hynes, J. T., "Theoretical study of the dissociation of nitric acid at a model aqueous surface", Journal of Physical Chemistry A 111, 11033-11042 (2007). [link to article][07BiWaHy.HNO3]
  15. Liu, G., Zhang, X., "Theoretical simulation of the nine infrared vibrational frequencies of HNO3 in the gas phase and in an argon matrix", Journal of Molecular Structure: THEOCHEM 807, 179-183 (2007). [link to article][07LiZhxx.HNO3]
  16. Flaud, J.-M., Brizzi, G., Carlotti, M., Perrin, A., Ridolfi, M., "MIPAS database: Validation of HNO3 line parameters using MIPAS satellite measurements", Atmospheric Chemistry and Physics 6, 5037-5048 (2006). [link to article][06FlBrCa.HNO3]
  17. Ramazan, K. A., Wingen, L. M., Miller, Y., Chaban, G. M., Gerber, R. B., Xantheas, S. S., Finlayson-Pitts, B. J., "New experimental and theoretical approach to the heterogeneous hydrolysis of NO2: Key role of molecular nitric acid and its complexes", Journal of Physical Chemistry A 110, 6886-6897 (2006). [link to article][06RaWiMi.HNO3]
  18. Perrin, A., Mbiake, R., "The ν5 and 2ν9 bands of the 15N isotopic species of nitric acid (H15NO3): Line positions and intensities", Journal of Molecular Spectroscopy 237, 27-35 (2006). [link to article][06PeMbxx.HNO3]
  19. Konen, I. M., Li, E. X. J., Lester, M. I., Vazquez, J., Stanton, J. F., "Infrared overtone spectroscopy and vibrational analysis of a Fermi resonance in nitric acid: Experiment and theory", Journal of Chemical Physics 125, 074310 (2006). [link to article][06KoEuLe.HNO3]
  20. Petkie, D. T., Helminger, P., Behnke, M., Medvedev, I. R., De Lucia, F. C., "The rotational spectra of the 7191, 6191, and 72 vibrational states of nitric acid", Journal of Molecular Spectroscopy 233, 189-196 (2005). [link to article][05PeHeBe.HNO3]
  21. Miller, Y., Chaban, G. M., Gerber, R. B., "Theoretical study of anharmonic vibrational spectra of HNO3, HNO3–H2O, HNO4: Fundamental, overtone and combination excitations", Chemical Physics 313, 213-224 (2005). [link to article][05MiChGe.HNO3]
  22. Perrin, A., Orphal, J., Flaud, J.-M., Klee, S., Mellau, G., Mader, H., Walbrodt, D., Winnewisser, M., "New analysis of the ν5 and 2ν9 bands of HNO3 by infrared and millimeter wave techniques: line positions and intensities", Journal of Molecular Spectroscopy 228, 375-391 (2004). [link to article][04PeOrFl.HNO3]
  23. Feierabend, K. J., Havey, D. K., Vaida, V., "Gas phase spectroscopy of HNO3 in the region 2000-8500 cm1", Spectrochimica Acta Part A 60, 2775-2781 (2004). [link to article][04FeHaVa.HNO3]
  24. Chackerian, C., Sharpe, S. W., Blake, T. A., "Anhydrous nitric acid integrated absorption cross sections: 820-5300 cm-1", Journal of Quantitative Spectroscopy and Radiative Transfer 82, 429-441 (2003). [link to article][03ChShBl.HNO3]
  25. Dorofeeva, O. V., Iorish, V. S., Novikov, V. P., Neumann, D. B., "NIST-JANAF thermochemical tables. II. Three molecules related to atmospheric chemistry: HNO3, H2SO4, and H2O2", Journal of Physical and Chemical Reference Data 32, 879-901 (2003). [link to article][03DoIoNo.HNO3]
  26. Toth, R. A., Brown, L. R., Cohen, E. A., "Linestrengths of nitric acid from 850 to 920 cm-1", Journal of Molecular Spectroscopy 218, 151-168 (2003). [link to article][03ToBrCo.HNO3]
  27. Gebhardt, C. R., Witte, T., Kompa, K. L., "Direct observation of charge-transfer reactions in nanoscopic test tubes: Self-ionization in HNO3 clusters", ChemPhysChem 4, 308+ (2003). [link to article][03GeWiKo.HNO3]
  28. Petkie, D. T., Helminger, P., Butler, R. A. H., Albert, S., De Lucia, F. C., "The millimeter and submillimeter spectra of the ground state and excited ν9, ν8, ν7, and ν6 vibrational states of HNO3", Journal of Molecular Spectroscopy 218, 127-130 (2003). [link to article][03PeHeBu.HNO3]
  29. Petkie, D. T., Goyette, T. M., Helminger, P., Pickett, H. M., De Lucia, F. C., "The energy levels of the ν5/2ν9 dyad of HNO3 from millimeter and submillimeter rotational spectroscopy", Journal of Molecular Spectroscopy 208, 121-135 (2001). [link to article][01PeGoHe.HNO3]
  30. Lucas, H., Petitet, J. P., "High pressure Raman spectroscopy of nitric acid", Journal of Physical Chemistry A 103, 8952-8958 (1999). [link to article][99LuPexx.HNO3]
  31. Benderskii, V. A., Vetoshkin, E. V., "Tunneling dynamics of internal rotation in the nitric acid molecule", Russian Chemical Bulletin 48, 2029-2038 (1999). [link to article][99BeVexx.HNO3]
  32. Perrin, A., Flaud, J. M., Keller, F., Goldman, A., Blatherwick, R. D., Murcray, F. J., Rinsland, C. P., "Analysis of the ν8 + ν9 band of HNO3, line positions and intensities, and resonances involving the v6 = v7 = 1 dark state", Journal of Molecular Spectroscopy 194, 113-123 (1999). [link to article][99PeFlKe.HNO3]
  33. Goldman, A., Rinsland, C. P., Perrin, A., Flaud, J. M., "HNO3 line parameters: 1996 HITRAN update and new results", Journal of Quantitative Spectroscopy and Radiative Transfer 60, 851-861 (1998). [link to article][98GoRiPe.HNO3]
  34. Keller, F., Perrin, A., Flaud, J. M., Johns, J. W. C., Lu, Z., Looi, E. C., "High resolution analysis of the ν6, ν7, ν8, and ν9 bands of H15N16O3 measured by Fourier transform spectroscopy", Journal of Molecular Spectroscopy 191, 306-310 (1998). [link to article][98KePeFl.HNO3]
  35. Donaldson, D. J., Orlando, J. J., Amann, S., Tyndall, G. S., Proos, R. J., Henry, B. R., Vaida, V., "Absolute intensities of nitric acid overtones", Journal of Physical Chemistry A 102, 5171-5174 (1998). [link to article][98DoOrAm.HNO3]
  36. Perrin, A., "Recent progress in the analysis of HNO3 spectra", Spectrochimica Acta Part A 54, 375-393 (1998). [link to article][98Perrin.HNO3]
  37. Wang, W. F., Ong, P. P., Chen, H. F., Teo, H. H., "High resolution measurement of the ν2 band of H15NO3", Journal of Molecular Spectroscopy 185, 207-208 (1997). [link to article][97WaOnCh.HNO3]
  38. Wang, W. F., Ong, P. P., Tan, T. L., Looi, E. C., Teo, H. H., "Infrared analysis of the anharmonic resonance between ν8 + ν9 and the dark state ν6 + ν7 of HNO3", Journal of Molecular Spectroscopy 183, 407-413 (1997). [link to article][97WaOnTa.HNO3]
  39. Tan, T. L., Wang, W. F., Looi, E. C., Ong, P. P., "High resolution FTIR spectrum of the ν6 band of HNO3", Spectrochimica Acta Part A 52, 1315-1317 (1996). [link to article][96TaWaLo.HNO3]
  40. Wang, W. F., Looi, E. C., Tan, T. L., Ong, P. P., "Line intensities in the ν8 band of HNO3", Journal of Molecular Spectroscopy 178, 22-30 (1996). [link to article][96WaLoTa.HNO3]
  41. Paulse, C. D., Coudert, L. H., Goyette, T. M., Crownover, R. L., Helminger, P., De Lucia, F. C., "Torsional splitting in the v9 band of nitric acid", Journal of Molecular Spectroscopy 177, 9-18 (1996). [link to article][96PaCoGo.HNO3]
  42. Looi, E. C., Lan, T. L., Wang, W. F., Ong, P. P., "Improved spectroscopic constants for the v7 and v8 bands of HNO3", Journal of Molecular Spectroscopy 176, 222-225 (1996). [link to article][96LoLaWa.HNO3]
  43. Goyette, T. M., Oesterling, L. C., Petkie, D. T., Booker, R. A., Helminger, P., De Lucia, F. C., "Rotational spectrum of HNO3 in the v5 and 2v9 vibrational states", Journal of Molecular Spectroscopy 175, 395-410 (1996). [link to article][96GoOePe.HNO3]
  44. Coudert, L. H., Perrin, A., "Accounting for the torsional splitting in the ν5 and 2ν9 bands of nitric acid", Journal of Molecular Spectroscopy 172, 352-368 (1995). [link to article][95CoPexx.HNO3]
  45. Grana, A. M., Lee, T. J., Headgordon, M., "Ab Initio calculations of singlet and triplet excited states of chlorine nitrate and nitric acid", Journal of Physical Chemistry 99, 3493-3502 (1995). [link to article][95GrLeHe.HNO3]
  46. Tan, T. L., Looi, E. C., Lua, K. T., Maki, A. G., Johns, J. W. C., Noel, M., "FTIR spectrum of the ν2 band of deuterated nitric acid (DNO3)", Journal of Molecular Spectroscopy 166, 97-106 (1994). [link to article][94TaLoLu.HNO3]
  47. Perrin, A., Flaud, J. M., Camypeyret, C., Winnewisser, B. P., Klee, S., Goldman, A., Murcray, F. J., Blatherwick, R. D., Bonomo, F. S., Muircray, D. G., Rinsland, C. P., "First analysis of the 3ν9 − ν9, 3ν9 − ν5, and 3ν9 − 2ν9 bands of HNO3: Torsional splitting in the ν9 vibrational mode", Journal of Molecular Spectroscopy 166, 224-243 (1994). [link to article][94PeFlCa.HNO3]
  48. Cox, A. P., Ellis, M. C., Attfield, C. J., Ferris, A. C., "Microwave spectrum of DNO3, and average structures of nitric and nitrous acids", Journal of Molecular Structure 320, 91-106 (1994). [link to article][94CoElAt.HNO3]
  49. Perrin, A., Jaouen, V., Valentin, A., Flaud, J. M., Camy-Peyret, C., "The ν5 and 2ν9 bands of nitric acid", Journal of Molecular Spectroscopy 157, 112-121 (1993). [link to article][93PeJaVa.HNO3]
  50. Maki, A. G., Tan, T. L., Looi, E. C., Lua, K. T., Johns, J. W. C., Noel, M., "Infrared spectrum of the ν6 and ν7 bands of deuterated nitric acid (DNO3)", Journal of Molecular Spectroscopy 157, 248-253 (1993). [link to article][93MaTaLo.HNO3]
  51. Tan, T. L., Looi, E. C., Lua, K. T., "High resolution FTIR spectrum of the ν5 and 2ν9 bands of HNO3", Spectrochimica Acta Part A 48, 975-981 (1992). [link to article][92TaLoLu.HNO3]
  52. Maki, A. G., Wells, J. S., "Measurement and analysis of the Fermi resonance between ν5 and 2ν9 of nitric acid", Journal of Molecular Spectroscopy 152, 69-79 (1992). [link to article][92MaWexx.HNO3]
  53. Goldman, A., Murcray, F. J., Blatherwick, R. D., Kosters, J. J., Murcray, D. G., Rinsland, C. P., Flaud, J. M., Camy-Peyret, C., "Stratospheric HNO3 measurements from 0.002 cm−1 resolution solar occultation spectra and improved spectroscopic line parameters in the 5.8 μm region", Journal of Geophysical Research A: Space Physics 97, 2561-2567 (1992). [link to article][92GoMuBl.HNO3]
  54. Lee, T. J., Rice, J. E., "Ab initio study of the molecular structure and vibrational spectrum of nitric acid and its protonated forms", Journal of Physical Chemistry 96, 650-657 (1992). [link to article][92LeRixx.HNO3]
  55. Tan, T. L., Looi, E. C., Lua, K. T., Maki, A. G., Johns, J. W. C., Noel, M., "Infrared spectrum of the ν9 and 2ν9 - ν9 bands of deuterated nitric acid (DNO3)", Journal of Molecular Spectroscopy 150, 486-492 (1991). [link to article][91TaLoLu.HNO3]
  56. Tan, T. L., Looi, E. C., Lua, K. T., Maki, A. G., Johns, J. W. C., Noel, M., "High resolution FTIR measurement and analysis of the ν8 band of deuterated nitric acid (DNO3)", Journal of Molecular Spectroscopy 149, 425-434 (1991). [link to article][91TaLoL1.HNO3]
  57. Maki, A., "Infrared spectrum of the 1205 cm−1 band of HNO3", Journal of Molecular Spectroscopy 136, 105-108 (1989). [link to article][89Maki.HNO3]
  58. Perrin, A., Lado-Bordowsky, O., Valentin, A., "The v3 and v4 interacting bands of HNO3 line positions and line intensities", Molecular Physics 67, 249-270 (1989). [link to article][89PeLaVa.HNO3]
  59. Goldman, A., Burkholder, J. B., Howard, C. J., Escribano, R., Maki, A. G., "Spectroscopic constants for the ν9 infrared band of HNO3", Journal of Molecular Spectroscopy 131, 195-200 (1988). [link to article][88GoBuHo.HNO3]
  60. Crownover, R. L., Booker, R. A., De Lucia, F. C., Helminger, P., "The rotational spectrum of nitric acid: The first five vibrational states", Journal of Quantitative Spectroscopy and Radiative Transfer 40, 39-46 (1988). [link to article][88CrBoDe.HNO3]
  61. Giesen, T., Harter, M., Schieder, R., Winnewisser, G., Yamada, K. M. T., "High resolution spectroscopy using a stabilized diode laser: the 2υ9 band of HNO3", Zeitschrift für Naturforschung A 43, 402-406 (1988). [link to article][88GiHaSc.HNO3]
  62. Booker, R. A., Crownover, R. L., De Lucia, F. C., Helminger, P., "Millimeter- and submillimeter-wave spectra of the ONO′ bending mode (ν7) in nitric acid", Journal of Molecular Spectroscopy 128, 62-67 (1988). [link to article][88BoCrDe.HNO3]
  63. Booker, R. A., Crownover, R. L., De Lucia, F. C., "Millimeter- and submillimeter-wave spectra of the NO' stretching mode (ν6) in nitric acid", Journal of Molecular Spectroscopy 128, 306-308 (1988). [link to article][88BoCrD1.HNO3]
  64. Webster, C. R., May, R. D., Gunson, M. R., "Tunable diode laser Stark modulation spectroscopy for rotational assignment of the HNO3 7.5 μm band", Chemical Physics Letters 121, 429-436 (1985). [link to article][85WeMaGu.HNO3]
  65. Maki, A. G., Wells, J. S., "High resolution spectrum of the ν5 band of nitric acid (HNO3) near 880 cm−1", Journal of Molecular Spectroscopy 108, 17-30 (1984). [link to article][84MaWexx.HNO3]
  66. Giver, L. P., Valero, F. P. J., Goorvitch, D., "Nitric-acid band intensities and band-model parameters from 610 to 1760 cm−1", Journal of the Optical Society of America B: Optical Physics 1, 715-722 (1984). [link to article][84GiVaGo.HNO3]
  67. Van der Veken, B. J., Pieters, G. H., Herman, M. A., Durig, J. R., "Internal rotation in nitric acid", Journal of Molecular Structure 80, 467-470 (1982). [link to article][82VaPiHe.HNO3]
  68. Ghosh, P. N., Blom, C. E., Bauder, A., "Microwave spectrum, centrifugal distortion analysis, and harmonic force field of nitric acid", Journal of Molecular Spectroscopy 89, 159-173 (1981). [link to article][81GhBlBa.HNO3]
  69. Lado-Bordowsky, O., "Determination of the amount of the atmospheric HNO3 by infrared spectroscopy from ground level observations", Nouvelle Revue d'Optique 12, 71-87 (1981). [link to article][81Lado-Bordowsky.HNO3]
  70. Farrow, L. A., Richton, R. E., Karnas, C. P., "Nitric acid vapor line parameters measured by CO laser transmittance", Applied Optics 18, 76-81 (1979). [link to article][79FaRiKa.HNO3]
  71. Chevillard, J. P., Giraudet, R., "Spectre de vibration-rotation de l'acide nitrique, bandes v5 et 2v9", Journal de Physique 39, 517-520 (1978). [link to article][78ChGixx.HNO3]
  72. Cox, A. P., Riveros, J. M., "Microwave spectrum and structure of nitric acid", Journal of Chemical Physics 42, 3106 (1965). [link to article][65CoRixx.HNO3]

The ExoMol bibliometrician is Olga Yurchenko