Bibliography for NiH
  1. Harker, H., Richard, C., Tourasse, G., Crozet, P., Ross, A. J., "Zeeman spectroscopy of NiH: Lande factors of three Ω = 3/2 excited electronic states", Journal of Molecular Spectroscopy 292, 28-34 (2013). [link to article][13HaRiTo.NiH]
  2. 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]
  3. Ishimatsu, N., Shichijo, T., Matsushima, Y., Maruyama, H., Matsuura, Y., Tsumuraya, T., Shishidou, T., Oguchi, T., Kawamura, N., Mizumaki, M., Matsuoka, T., Takemura, K., "Hydrogen-induced modification of the electronic structure and magnetic states in Fe, Co, and Ni monohydrides", Physical Review B 86, 104430 (2012). [link to article][12IsShMa.NiH]
  4. Ross, A. J., Crozet, P., Richard, C., Harker, H., Ashworth, S. H., Tokaryk, D. W., "Resolved fluorescence spectra of NiH. Electronic structure, electronic energy transfer, and the Zeeman effect in low-lying states", Molecular Physics 110, 2019-2033 (2012). [link to article][12RoCrRi.NiH]
  5. Mayhall, N. J., Raghavachari, K., "Multiple solutions to the single-reference CCSD equations for NiH", Journal of Chemical Theory and Computation 6, 2714-2720 (2010). [link to article][10MaRaxx.NiH]
  6. Kulik, H. J., Marzari, N., "Systematic study of first-row transition-metal diatomic molecules: A self-consistent DFT plus U approach", Journal of Chemical Physics 133, 114103 (2010). [link to article][10KuMaxx.CaH]
  7. Shaji, S., Song, A., Li, M., O'Brien, J. J., O'Brien, L. C., "Laboratory measurements of the (2,0) B2Δ5/2 - X2Δ5/2 transition of nickel hydride using intracavity laser absorption spectroscopy", Canadian Journal of Chemistry 87, 583-587 (2009). [link to article][09ShSoLi.NiH]
  8. Vallon, R., Richard, C., Crozet, P., Wannous, G., Ross, A., "Laboratory measurements of NiH by Fourier transform dispersed fluorescence", The Astrophysical Journal 696, 172-175 (2009). [link to article][09VaRiCr.NiH]
  9. Vallon, R., Ashworth, S. H., Crozet, P., Field, R. W., Forthomme, D., Harker, H., Richard, C., Ross, A. J., "Room-temperature metal-hydride discharge source, with observations on NiH and FeH", Journal of Physical Chemistry A 113, 13159-13166 (2009). [link to article][09VaAsCr.FeH]
  10. Balfour, W. J., Chowdhury, P. K., Li, R., "Ni+B2H6: Spectroscopic observations on NiB and NiH", Chemical Physics Letters 463, 25-28 (2008). [link to article][08BaChLi.NiH]
  11. Chen, J., Steimle, T. C., "A molecular beam optical Stark study of nickel monohydride, NiH", Chemical Physics Letters 457, 23-25 (2008). [link to article][08ChStxx.NiH]
  12. Shaji, S., Nunn, J., O'Brien, J. J., O'Brien, L. C., "Intracavity laser absorption spectra of nickel hydride", Astrophysical Journal 672, 722-725 (2008). [link to article][08ShNuBr.NiH]
  13. Goel, S., Masunov, A. E., "Potential energy curves and electronic structure of 3d transition metal hydrides and their cations", Journal of Chemical Physics 129, 214302 (2008). [link to article][08GoMaxx.TiH]
  14. Zou, W., Liu, W., "Theoretical study on the low-lying electronic states of NiH and NiAt", Journal of Computational Chemistry 28, 2286-2298 (2007). [link to article][07ZoLixx.NiH]
  15. Vallon, R., Crozet, P., Salami, H., Ross, A. J., "Intracavity laser fluorescence: the NiH electronic spectrum", Journal de Physique IV 135, 291-292 (2006). [link to article][06VaCrSa.NiH]
  16. O'Brien, L. C., O'Brien, J. J., "Laboratory measurements of NiH by intracavity laser absorption spectroscopy", Astrophysical Journal 621, 554-556 (2005). [link to article][05BrBrxx.NiH]
  17. Diaconu, C. V., Cho, A. E., Doll, J. D., Freeman, D. L., "Broken-symmetry unrestricted hybrid density functional calculations on nickel dimer and nickel hydride", Journal of Chemical Physics 121, 10026-10040 (2004). [link to article][04DiChDo.NiH]
  18. Liu, F. Y., Liyanage, R., Armentrout, P. B., "Guided ion beam studies of the reaction of Nin+ (n=2-16) with D2: Nickel cluster-deuteride bond energies", Journal of Chemical Physics 117, 132-141 (2002). [link to article][02LiLiAr.NiH]
  19. Hara, K., Lalazissis, G. A., "Analysis of diatomic molecular rotational spectra", Physica Scripta 64, 48-52 (2001). [link to article][01HarLal.CrH]
  20. Boone, C. D., Dalby, F. W., Ozier, I., "Magnetic rotation molecular spectroscopy using an oscillating field", Journal of Chemical Physics 113, 8594-8607 (2000). [link to article][00BoDaOz.NiH]
  21. Li, S., Vanzee, J., Weltner, W., Cory, M. G., Zerner, M. C., "Magneto-infrared spectra of matrix-isolated NiH and NiH2 molecules and theoretical calculations of the lowest electronic states of NiH2", Journal of Chemical Physics 106, 2055-2059 (1997). [link to article][97LiVaWe.NiH]
  22. McCarthy, M. C., Kanamori, H., Steimle, T. C., Li, M. G., Field, R. W., "Sideband optical-optical double resonance zeeman spectroscopy. II. Studies of NIH, PdD, and PtH", Journal of Chemical Physics 107, 4179-4188 (1997). [link to article][97McKaSt.NiH]
  23. Barone, V., Adamo, C., "First-row transition-metal hydrides: A challenging playground for new theoretical approaches", International Journal of Quantum Chemistry 61, 443-451 (1997). [link to article][97BarAdxx.CrH]
  24. Maricq, M. M., "A classical path/forced rotor theory of state‐to‐state rotational energy transfer", Journal of Chemical Physics 103, 5999-6012 (1995). [link to article][95Maricq.CN]
  25. Marian, C. M., "An approach to the calculation of Ω-splittings in diatomic molecules with strongly coupled electronic states and its application to NiH and NiD", Berichte der Bunsengesellschaft für Physikalische Chemie 99, 254-264 (1995). [link to article][95Marian.NiH]
  26. Pouamerigo, R., Merchan, M., Nebotgil, I., Malmqvist, P. A., Roos, B. O., "The chemical bonds in CuH, Cu2, NiH, and Ni2 studied with multiconfigurational second order perturbation theory", Journal of Chemical Physics 101, 4893-4902 (1994). [link to article][94PoMeNe.NiH]
  27. McCarthy, M. C., Field, R. W., "Frequency‐modulation enhanced magnetic rotation spectroscopy of PdH, PdD, NiH, and CuH", Journal of Chemical Physics 100, 6347-6358 (1994). [link to article][94McFixx.NiH]
  28. Lipus, K., Urban, W., Evenson, K. M., Brown, J. M., "Laser magnetic resonance spectroscopy of the NiD radical in the far- and mid-infrared", Molecular Physics 79, 571-587 (1993). [link to article][93LiUrEv.NiH]
  29. Brown, J. M., Beaton, S. P., Evenson, K. M., "Rotational frequencies of transition metal hydrides for astrophysical searches in the far-infrared", Astrophysical Journal 414, L125-L127 (1993). [link to article][93BrBeEv.CrH]
  30. Lipus, K., Bachem, E., Urban, W., "Direct observation of fine structure transitions within the X2Δ ground state of the NiH radical by CO2-Faraday laser magnetic resonance", Molecular Physics 75, 945-951 (1992). [link to article][92LiBaUr.NiH]
  31. McCarthy, M. C., Field, R. W., "The use of magnetic rotation spectroscopy to simplify and presort spectra: An application to NiH and CeF", Journal of Chemical Physics 96, 7237-7244 (1992). [link to article][92McFixx.NiH]
  32. Gray, J. A., Li, M. G., Nelis, T., Field, R. W., "The electronic structure of NiH: The {Ni+3d92D} supermultiplet", Journal of Chemical Physics 95, 7164-7178 (1991). [link to article][91GrLiNe.NiH]
  33. Kadavathu, S. A., Scullman, R., Field, R. W., Gray, J. A., Li, M., "Excited states of NiH and NiD in the 15 500–19 000 cm−1 region: Rotational analysis with the aid of laser-induced fluorescence spectroscopy", Journal of Molecular Spectroscopy 147, 448-470 (1991). [link to article][91KaScFi.NiH]
  34. Nelis, T., Beaton, S. P., Evenson, K. M., Brown, J. M., "A determination of the molecular parameters for NiH in its 2Δ ground state by laser magnetic resonance", Journal of Molecular Spectroscopy 148, 462-478 (1991). [link to article][91NeBeEv.NiH]
  35. Bachem, E., Urban, W., Nelis, T., "Direct observation of the transitions 2Δ5/2, ν = 0 → 2Π3/2, ν = 0 and 2Δ5/2, ν = 0 → 2Δ3/2 ν = 1 of the NiH radical by Faraday LMR, employing a CO overtone laser", Molecular Physics 73, 1031-1040 (1991). [link to article][91BaUrNe.NiH]
  36. Steimle, T. C., Nachman, D. F., Shirley, J. E., Fletcher, D. A., Brown, J. M., "The microwave spectrum of NiH", Molecular Physics 69, 923-932 (1990). [link to article][90StNaSh.NiH]
  37. Marian, C. M., "Quasirelativistic calculation of the vibronic spectra of NiH and NiD", Journal of Chemical Physics 93, 1176-1186 (1990). [link to article][90Marian.NiH]
  38. Hill, E. J., Field, R. W., "Fluorescence‐based intracavity laser spectroscopy and the electronic structure of NiH", Journal of Chemical Physics 93, 1-5 (1990). [link to article][90HiFixx.NiH]
  39. Gray, J. A., Li, M. G., Field, R. W., "Zeeman spectroscopy and deperturbation of the low‐lying states of NiH", Journal of Chemical Physics 92, 4651-4659 (1990). [link to article][90GrLiFi.NiH]
  40. Kadavathu, S. A., Scullman, JR., Gray, J. A., Li, M. G., Field, R. W., "New low-lying states in NiH: Rotational analysis with the aid of laser-induced dispersed fluorescence spectroscopy", Journal of Molecular Spectroscopy 140, 126-140 (1990). [link to article][90KaScGr.NiH]
  41. Haberlandt, H., "Pseudopotential MRD CI calculations of nickel-containing molecules. II. The electronic 1Σ+ ground state and 20 low-lying excited states of the NiSi molecule", Journal of Molecular Structure: THEOCHEM 64, 25-34 (1990). [link to article][90Haberlandt.NiH]
  42. Bauschlicher, C. W., Langhoff, S. R., Komornicki, A., "The calculation of the dipole moments of NiH, TiO, and FeO", Theoretical Chemistry Accounts 77, 263-279 (1990). [link to article][90BaLaKo.TiO]
  43. Marian, C. M., Blomberg, M. R. A., Siegbahn, P. E. M., "Multireference and relativistic effects in NiH", Journal of Chemical Physics 91, 3589-3595 (1989). [link to article][89MaBlSi.NiH]
  44. Lipus, K., Simon, U., Bachem, E., Nelis, T., Urban, W., "Direct observation of the fundamental vibration-rotation transitions within the NiD X 2Δ5/2 ground state by CO-Faraday-L.M.R. spectroscopy and zero field transitions in NiH", Molecular Physics 67, 1431-1437 (1989). [link to article][89LiSiBa.NiH]
  45. Li, M. G., Field, R. W., "Sideband optical–optical double resonance Zeeman spectroscopy of NiH: A new diagnostic for electronic and rotational assignment", Journal of Chemical Physics 90, 2967-2970 (1989). [link to article][89LiFixx.NiH]
  46. Nelis, T., Bachem, E., Bohle, W., Urban, W., "Vibration rotation spectroscopy of the NiH-radical in its 2Δ-ground state by CO-Faraday-L.M.R.", Molecular Physics 64, 759-765 (1988). [link to article][88NeBaBo.NiH]
  47. Beaton, S. P., Evenson, K. M., Nelis, J. T., Brown, J. M., "Detection of the free radicals FeH, CoH, and NiH by far infrared laser magnetic resonance", Journal of Chemical Physics 89, 4446-4448 (1988). [link to article][88BeEvNe.FeH]
  48. Kadavathu, S. A., Lofgren, S., Scullman, R., "Rotational analysis of some new transitions in NiD. A comparison between NiH and NiD", Physica Scripta 35, 277-285 (1987). [link to article][87KaLoSc.NiH]
  49. Li, M. G., Gray, J. A., Field, R. W., "A multipass, magnetically confined sputter source for absorption-based spectroscopy of transient molecules: the spectrum of NiH", Chemical Physics 117, 171-176 (1987). [link to article][87LiGrFi.NiH]
  50. Miller, A. E. S., Feigerle, C. S., Lineberger, W. C., "Laser photoelectron spectroscopy of CrH, CoH, and NiH: Periodic trends in the electronic structure of the transition‐metal hydrides", Journal of Chemical Physics 87, 1549-1556 (1987). [link to article][87MiFeLi.CrH]
  51. Jacox, M. E., "Comparison of the electronic energy levels of diatomic molecules in the gas phase and in inert solid matrices", Journal of Molecular Structure 157, 43-59 (1987). [link to article][87Jacox.CrH]
  52. Jacox, M. E., "Analysis of the vibrational spectrum of the nitromethyl free radical", Journal of Physical Chemistry 91, 5038-5041 (1987). [link to article][87Jacox1.NiH]
  53. Rohlfing, C. M., Hay, P. J., Martin, R. L., "An effective core potential investigation of Ni, Pd, and Pt and their monohydrides", Journal of Chemical Physics 85, 1447-1455 (1986). [link to article][86RoHaMa.NiH]
  54. Gray, J. A., Field, R. W., "The Zeeman effect as an aid to electronic assignment: The NiH A 2Δ5/2 state", Journal of Chemical Physics 84, 1041-1042 (1986). [link to article][86GrFixx.NiH]
  55. Chong, D. P., Langhoff, S. R., Bauschlicher, C. W., Walch, S. P., "Theoretical dipole moments for the first‐row transition metal hydrides", Journal of Chemical Physics 85, 2850-2860 (1986). [link to article][86ChLaBa.CrH]
  56. Elkind, J. L., Armentrout, P. B., "Transition-metal hydride bond energies: First and second row", Inorganic Chemistry 25, 1078-1080 (1986). [link to article][86ElArxx.CrH]
  57. Gray, J. A., Rice, S. F., Field, R. W., "The electric dipole moment of NiH X 2Δ5/2 and B 2Δ5/2", Journal of Chemical Physics 82, 4717-4718 (1985). [link to article][85GrRiFi.NiH]
  58. Walch, S. P., Bauschlicher, C. W., Langhoff, S. R., "Calculated electric dipole moment of NiH X 2Δ", Journal of Chemical Physics 83, 5351-5352 (1985). [link to article][85WaBaLa.NiH]
  59. Ruette, F., Blyholder, G., Head, J., "Bonding and potential energy curves for NiH and NiH2", Journal of Chemical Physics 80, 2042-2048 (1984). [link to article][84RuBlHe.NiH]
  60. Varada Rajulu, A., Raja Ratnam, S., Ramakrishna Reddy, R., "Electronegativities in the calculation of diatomic molecular parameters (Hydrides of some transition elements)", Journal of Quantitative Spectroscopy and Radiative Transfer 29, 85-88 (1983). [link to article][83VaRaRa.NiH]
  61. Walch, S. P., Bauschlicher, C. W., "CASSCF/CI calculations for first row transition metal hydrides: The TiH (4Φ), VH (5Δ), CrH (6Σ+), MnH (7Σ+), FeH (4,6Δ), and NiH (2Δ) states", Journal of Chemical Physics 78, 4597-4605 (1983). [link to article][83WalBau.CrH]
  62. Pettersson, L. G. M., Wahlgren, U., Gropen, O., "Effective core potential calculations using frozen orbitals. Applications to transition metals", Chemical Physics 80, 7-16 (1983). [link to article][83PeWaGr.CrH]
  63. Blomberg, M. R. A., Siegbahn, P. E. M., Roos, B. O., "A theoretical study of NiH optical spectrum and potential curves", Molecular Physics 47, 127-143 (1982). [link to article][82BlSiRo.NiH]
  64. Walch, S. P., Bauschlicher, C. W., "On incorporation of atomic correlation in transition-metal molecular calculations: NiH", Chemical Physics Letters 86, 66-70 (1982). [link to article][82WalBau.NiH]
  65. Scullman, R., Lofgren, S., Kadavathu, S. A., "The spectrum of NiH. Some new transitions", Physica Scripta 25, 295-301 (1982). [link to article][82ScLoKa.NiH]
  66. Gropen, O., Wahlgren, U., Pettersson, L., "Effective core potential calculations on small molecules containing transition metal atoms", Chemical Physics 66, 459-464 (1982). [link to article][82GrWaPe.CrH]
  67. Bagus, P. S., Bjorkman, C., "Electronic structure of transition-metal hydrides: NiH and PdH", Physical Review A 23, 461-472 (1981). [link to article][81BagBjo.NiH]
  68. Das, G., "A pseudopotential study of the iron‐series transition metal hydrides", Journal of Chemical Physics 74, 5766-5774 (1981). [link to article][81Das.FeH]
  69. Dunlap, B. I., Yu, H. L., "An extended basis set lcao xα treatment of NiH and Ni2", Chemical Physics Letters 73, 525-529 (1980). [link to article][80DuYuxx.NiH]
  70. Devore, T. C., "Rotational analysis of the 502.64 nm band of NIH", High Temperature Science 12, 259-266 (1980).[80Devore.NiH]
  71. Kant, A., Moon, K. A., "Dissociation-energies of gaseous CuH, AgH, AuH, and NiH", High Temperature Science 11, 52-62 (1979).[81KaMoxx.NiH]
  72. Guse, M. P., Blint, R. J., Kunz, A. B., "Potential energy curves for NiH and NiH2", International Journal of Quantum Chemistry 11, 725-732 (1977). [link to article][77GuBlKu.NiH]
  73. Kunz, A. B., Guse, M. P., Blint, R. J., "Potential energy curves for ScH", Journal of Physics B: Atomic, Molecular and Optical Physics 8, L358-L361 (1975). [link to article][75KuGuBl.ScH]
  74. Thomson, C., "Ab initio calculations on small molecules, and potential energy surfaces.", Annual Reports on the Progress of Chemistry, Section A: General Physical and Inorganic Chemistry 71, 5-28 (1974). [link to article][74Thomson.CrH]
  75. Smith, R. E., "Diatomic hydride and deuteride spectra of the second row transition metals", Proceedings of the Royal Society of London A 332, 113-127 (1973). [link to article][73Smith.ScH]
  76. Lambert, D. L., Mallia, E. A., "Identification of Nih in the sunspot spectrum", Monthly Notices of the Royal Astronomical Society 151, 437 (1971). [link to article][71LaMaxx.NiH]
  77. Wöhl, H., "On molecules in sunspots", Solar Physics 16, 362-372 (1971). [link to article][71Wöhl.BeH]
  78. Dobrev, G., Morville, J., Tokaryk, D. W., Ross, A. J., Crozet, P., "A CRDS sputter-source experiment to study MH radicals: application to NiH and NiD", Molecular Physics 0, 1-11. [link to article][16DoMcTo.NiH]

The ExoMol bibliometrician is Olga Yurchenko