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Threshold ionization spectroscopy of H2O, HDO and D2O and low-lying vibrational levels of HDO+and D2O+

Bibliographic reference Lauzin, Clément ; Jacovella, Ugo ; Merkt, Frédéric. Threshold ionization spectroscopy of H2O, HDO and D2O and low-lying vibrational levels of HDO+and D2O+. In: Molecular Physics, Vol. 113, p. 1-7 (2015)
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  1. Bunker P.R., Molecular Symmetry and Spectroscopy (1998)
  2. Brundle C. R., Turner D. W., High Resolution Molecular Photoelectron Spectroscopy. II. Water and Deuterium Oxide, 10.1098/rspa.1968.0172
  3. Karlsson L., Mattsson L., Jadrny R., Albridge R. G., Pinchas S., Bergmark T., Siegbahn K., Isotopic and vibronic coupling effects in the valence electron spectra of H2 16O, H2 18O, and D2 16O, 10.1063/1.430423
  4. Dixon R.N., Duxbury G., Rabalais J.W., Åsbrink L., Ro-vibronic structure in the photoelectron spectra of H2O, D2O and HDO, 10.1080/00268977600100311
  5. Botter R., Carlier J., Spectre de photoélectrons et calcul des facteurs de franck-condon pour H2O, D2O, HDO, 10.1016/0368-2048(77)85067-6
  6. Page Ralph H., Larkin Robert J., Shen Y. R., Lee Y. T., High‐resolution photoionization spectrum of water molecules in a supersonic beam, 10.1063/1.454058
  7. Tonkyn Russell G., Wiedmann Ralph, Grant Edward R., White Michael G., Rotationally resolved photoionization of H2O, 10.1063/1.461431
  8. Lee M.‐T., Wang Kwanghsi, McKoy V., Tonkyn R. G., Wiedmann R. T., Grant E. R., White Michael G., Ion rotational distributions for near‐threshold photoionization of H2O, 10.1063/1.462381
  9. Lee M.‐T., Wang Kwanghsi, McKoy V., Rotationally resolved near‐threshold photoionization of the 1b1 valence orbital of H2O and D2O, 10.1063/1.462998
  10. Glab W. L., Glynn P. T., Dehmer P. M., Dehmer J. L., Wang Kwanghsi, McKoy B. V., Rotationally resolved energy-dispersive photoelectron spectroscopy of H2O: Photoionization of the C̃(0,0,0) state at 355 nm, 10.1063/1.473597
  11. Merkt F., Signorell R., Palm H., Osterwalder A., Sommavilla M., Towards resolving the hyperfine structure in ions by photoelectron spectroscopy, 10.1080/00268979809483237
  12. Öhrwall G, Baltzer P, Rotational line profile in the He I excited photoelectron spectrum of the X2B1[v′=(0,0,0)] state of H2O+, 10.1016/s0009-2614(99)00575-8
  13. Dickinson H., Mackenzie S. R., Softley T. P., (2+1) Resonance-enhanced multiphoton ionization (REMPI) and (2+1′) mass-analyzed threshold ionization (MATI) spectroscopy of H2O, 10.1039/b005717g
  14. Glab W. L., Pratt S. T., Ion rotational distributions following vibrational autoionization of the Rydberg states of water, 10.1063/1.1701718
  15. Truong S.Y., Yencha A.J., Juarez A.M., Cavanagh S.J., Bolognesi P., King G.C., Threshold photoelectron spectroscopy of H2O and D2O over the photon energy range 12–40eV, 10.1016/j.chemphys.2008.12.009
  16. Ford Mark S., Müller-Dethlefs Klaus, Kitajima M., Tanaka H., Tamenori Y., De Fanis A., Ueda Kyoshi, Rotational Analysis for the Doppler-Free Photoelectron Spectrum of Water Using the Spectator Model†, 10.1021/jp102496n
  17. Jungen Ch., Hallin K-E.J., Merer A.J., Orbital angular momentum in triatomic molecules : II. Vibrational andK-type rotational structure, and intensity factors in theA2A1-X2B1transitions of NH2and H2O+, 10.1080/00268978000101301
  18. Weis B., Carter S., Rosmus P., Werner H.‐J., Knowles P. J., A theoretical rotationally resolved infrared spectrum for H2O+ (X 2B1), 10.1063/1.456951
  19. Brommer Matthias, Weis Bernhard, Follmeg Bernd, Rosmus Pavel, Carter Stuart, Handy Nicholas C., Werner Hans‐Joachim, Knowles Peter J., Theoretical spin–rovibronic 2A1(Πu)–2B1 spectrum of the H2O+, HDO+, and D2O+ cations, 10.1063/1.464922
  20. Lew H., Electronic spectrum of H2O+, 10.1139/p76-241
  21. Lew H., Groleau R., Electronic spectrum of D2O+, 10.1139/p87-108
  22. Mürtz P., Zink L. R., Evenson K. M., Brown J. M., Measurement of high-frequency rotational transitions of H2O+ in its ground state by far-infrared laser magnetic resonance (LMR) spectroscopy, 10.1063/1.477644
  23. Huet T. R., Pursell C. J., Ho W. C., Dinelli B. M., Oka T., Infrared spectroscopy and equilibrium structure of H2O+(X̃ 2B1), 10.1063/1.463735
  24. Strahan S. E., Mueller R. P., Saykally R. J., Measurement of the rotational spectrum of the water cation (H2O+) by laser magnetic resonance, 10.1063/1.451263
  25. Huet T. R., Hadj Bachir I., Destombes J.-L., Vervloet M., The Ã 2A1–X̃ 2B1 transition of H2O+ in the near infrared region, 10.1063/1.474326
  26. Forney Daniel, Jacox Marilyn E., Thompson Warren E., The vibrational spectra of molecular ions isolated in solid neon. X. H2O+, HDO+, and D2O+, 10.1063/1.464248
  27. SIGNORELL R., MERKT F., General symmetry selection rules for the photoionization of polyatomic molecules, 10.1080/002689797169745
  28. Zhu Langchi, Johnson Philip, Mass analyzed threshold ionization spectroscopy, 10.1063/1.460460
  29. Seiler R., Hollenstein U., Softley T. P., Merkt F., High-resolution threshold-ionization spectroscopy of NH3, 10.1063/1.1571528
  30. Duggan L., Raunhardt M., Schäfer M., Hollenstein U., Softley T.P., Merkt F., PFI-ZEKE photoelectron and high resolution photoionization spectra of ND3with MQDT simulations, 10.1080/00268971003649315
  31. Rupper P., Merkt F., Intense narrow-bandwidth extreme ultraviolet laser system tunable up to 20 eV, 10.1063/1.1646744
  32. Hollenstein U., Seiler R., Schmutz H., Andrist M., Merkt F., Selective field ionization of high Rydberg states: Application to zero-kinetic-energy photoelectron spectroscopy, 10.1063/1.1396856
  33. Gilbert R.D., Child M.S., Effects of polarization in the field ionization spectrum of H2O, 10.1016/0009-2614(91)90500-9
  34. Willitsch S., Merkt F., Rovibronic photoionization dynamics of asymmetric-top molecules, 10.1016/j.ijms.2005.06.004
  35. Toth Robert A., ν_2 band of H_2^16O: line strengths and transition frequencies, 10.1364/josab.8.002236
  36. Toth R.A., D216O and D218O Transition Frequencies and Strengths in the ν2 Bands, 10.1006/jmsp.1993.1267
  37. Duan Chuanxi, Zheng Rui, Li Song, Wang Ruibo, Huang Guangming, Infrared laser spectroscopy of the ν2 fundamental band of D2O+, 10.1016/j.jms.2008.01.004
  38. Toth R.A., HD16O, HD18O, and HD17O Transition Frequencies and Strengths in the ν2 Bands, 10.1006/jmsp.1993.1266
  39. Tanner C. Manca, J. Phys. Chem. A, 117, 39 (2013)
  40. Child M. S., Jungen Ch., Quantum defect theory for asymmetric tops: Application to the Rydberg spectrum of H2O, 10.1063/1.459355