There are 63 references in total for SiH₄.

1. Ulenikov, O. N., Gromova, O. V., Bekhtereva, E. S., Raspopova, N. I., Kashirina, N. V., Fomchenko, A. L., Sydow, C., Bauerecker, S., "High resolution study of ^MSiH₄ (M=28, 29, 30) in the Dyad Region: Analysis of line positions, intensities and half-widths", Journal of Quantitative Spectroscopy and Radiative Transfer 203, 496-510 (2017). [link to article][17UlGrBe.SiH4]
2. Owens, A., Yachmenev, A., Thiel, W., Tennyson, J., Yurchenko, S. N., "ExoMol line lists - XXII. The rotation-vibration spectrum of silane up to 1200 K", Monthly Notices of the Royal Astronomical Society 471, 5025-5032 (2017). [link to article][17OwYaTh.SiH4]
3. Owens, A., Yurchenko, S. N., Yachmenev, A., Thiel, W., "A global potential energy surface and dipole moment surface for silane", Journal of Chemical Physics 143, 244317 (2015). [link to article][15OwYuYa.SiH4]
4. van Helden, J. H., Lopatik, D., Nave, A., Lang, N., Davies, P. B., Röpcke, J., "High resolution spectroscopy of silane with an external-cavity quantum cascade laser: Absolute line strengths of the ν₃ fundamental band at 4.6 μm", Journal of Quantitative Spectroscopy and Radiative Transfer 151, 287-294 (2015). [link to article][15vaLoNa.SiH4]
5. Crogman, H., Boudon, V., Sadovskii, D. A., "Local modes of silane within the framework of stretching vibrational polyads", European Physics Journal D 42, 61-72 (2007). [link to article][07CrBoSa.SiH4]
6. Coriani, S., Marchesan, D., Gauss, J., Hättig, C., Helgaker, T., Jørgensen, P., "The accuracy of ab initio molecular geometries for systems containing second-row atoms", Journal of Chemical Physics 123, 184107 (2005). [link to article][05CoMaGa.SiH4]
7. Terki-Hassaine, M., Pierre, G., Boudon, V., Hamadouche, G. A., Guelachvili, G., "The hot bands of silane between 2120 and 2270 cm^-1", Journal of Molecular Spectroscopy 230, 117-124 (2005). [link to article][05TePiBo.SiH4]
8. He, S. G., Liu, A. W., Lin, H., Hu, S. M., Zheng, J. J., Hao, L. Y., Zhu, Q. S., "Study of the stretching vibrational band intensities of XH₄ molecules employing four-dimensional ab initio (X = C and Sn) and effective (X = C and Si) dipole moment surfaces", Journal of Chemical Physics 117, 10073-10080 (2002). [link to article][02HeLiLi.SiH4]
9. Xie, J. K., Tennyson, J., "Variational calculations of vibrational energy levels for XY₄ molecules 1. Stretching states", Molecular Physics 100, 1615-1622 (2002). [link to article][02XiTexx.SiH4]
10. Hou, X. W., Borondo, F., Benito, R. M., "Algebraic calculation of vibrational energy levels for polyatomic molecules XH₃ and XH₄: application to ammonia and silane", Chemical Physics Letters 344, 421-428 (2001). [link to article][01HoBoBe.SiH4]
11. Lin, H., He, S.-G., Wang, X.-G., Yuan, L.-F., Burger, H., D'Eu, J.-F., Reuter, N., Thiel, W., "The vibrational overtones of SiH₄ isotopomers: experimental wavenumbers, assignment, ab initio dipole moment surfaces and intensities", Physical Chemistry Chemical Physics 3, 3506-3517 (2001). [link to article][01LiHeWa.SiH4]
12. Lin, H., Burger, H., He, S. G., Yuan, L. F., Breidung, J., Thiel, W., "Overtones of the Si-H stretching-bending polyad in SiHD₃: Internal coordinate force field, ab initio dipole moment surfaces, and band intensities", Journal of Physical Chemistry A 105, 6065-6072 (2001). [link to article][01LiBuHe.SiH4]
13. Monnier, J. D., Danchi, W. C., Hale, D. S., Tuthill, P. G., Townes, C. H., "Mid-Infrared Interferometry on spectral lines. III. Ammonia and Silane around IRC +10216 and VY Canis Majoris", The Astrophysical Journal 543, 868-879 (2000). [link to article][00MoDaHa.SiH4]
14. Lin, H., Yuan, L. F., Zhu, Q. S., "Local mode overtone intensities of SiH₄ and GeH₄ from a bond dipole model with an ab initio calculated dipole moment surface", Chemical Physics Letters 308, 137-141 (1999). [link to article][99LiYuZh.SiH4]
15. Terki-Hassaine, M., Claveau, C., Valentin, A., Pierre, G., "Analysis of the infrared Fourier transform spectrum of the spectra of silane in the range 2930-3300 cm^-1", Journal of Molecular Spectroscopy 197, 307-321 (1999). [link to article][99TeClVa.SiH4]
16. Martin, J. M. L., Baldridge, K. K., Lee, T. J., "Accurate ab initio anharmonic force field and heat of formation for silane", Molecular Physics 97, 945-953 (1999). [link to article][99MaBaLe.SiH4]
17. Lin, H., Wang, D., Chen, X. Y., Wang, X. G., Zhou, Z. P., Zhu, Q. S., "Absorption intensity of stretching overtone states of silane and germane", Journal of Molecular Spectroscopy 192, 249-256 (1998). [link to article][98LiWaCh.SiH4]
18. Liao, J. L., Zhu, Q. S., "An improved dipole moment model for the intensities of the vibrational absorption of XY₄ near the local mode limit", Chemical Physics Letters 274, 328-334 (1997). [link to article][97LiZhxx.SiH4]
19. Permogorov, D., Campargue, A., "The local mode model in silanes and germanes", Molecular Physics 92, 117-125 (1997). [link to article][97PeCaxx.SiH4]
20. Leroy, C., Collin, F., Loëte M., "Algebraic approach to vibrational spectra of tetrahedral molecules: First order infrared intensity model", Journal of Molecular Spectroscopy 175, 289-295 (1996). [link to article][96LeCoLo.SiH4]
21. Harris, N. J., "A systematic theoretical study of harmonic vibrational frequencies and deuterium isotope fractionation factors for small molecules", Journal of Physical Chemistry 99, 14689-14699 (1995). [link to article][95Harris.CH3Cl]
22. Leroy, C., Michelot, F., Boujut, V., "Rovibrational interactions in the local-mode limit: The (n000) stretching overtone bands of spherical tops", Journal of Molecular Spectroscopy 173, 333-346 (1995). [link to article][95LeMiBo.SiH4]
23. Boutahar, A., Touzani, L., Loëte, M., Millot, G., Lavorel, B., "Raman Intensities of the ν₁/ν₃ Dyad of ²⁸SiH₄", Journal of Molecular Spectroscopy 169, 38-57 (1995). [link to article][95BoToLo.SiH4]
24. Sun, F. G., Wang, X. G., Zhu, Q. S., Pierre, C., Pierre, G., "Coriolis interaction parameters of the (2100; F₂) bands of SiH₄ and GeH₄. A test of local mode models", Chemical Physics Letters 239, 373-379 (1995). [link to article][95SuWaZh.SiH4]
25. Coats, A. M., McKean, D. C., Steele, D., "Infrared intensities of ν₃ and ν₄ in SiH₄, GeH₄ and SnH₄", Journal of Molecular Spectroscopy 320, 269-280 (1994). [link to article][94CoMcSt.SiH4]
26. Zhu, Q. S., Campargue, A., Stoeckel, F., "A high-resolution spectroscopic study of SiH₄ ν = 6 and 7 overtones", Spectrochimica Acta Part A 50, 663-670 (1994). [link to article][94ZhCaSt.SiH4]
27. Keady, J. J., Ridgway, S. T., "The IRC +10216 circumstellar envelope. III. Infrared molecular line-profiles", The Astrophysical Journal 406, 199-214 (1993). [link to article][93KeRixx.SiH4]
28. Cadot, J., "Measurement of the transition dipole moment of silane ²⁸SiH₄ by diode laser spectroscopy", Journal of Molecular Spectroscopy 154, 383-390 (1992). [link to article][92Cadot.SiH4]
29. Zhu, Q. S., "Effective rotational Hamiltonian of the local mode vibrational states", Spectrochimica Acta Part A 48, 193-198 (1992). [link to article][92Zhu.SiH4]
30. Höhe, W., Ainetschian, A., Kreiner, W. A., Loëte, M., "Double modulation sideband spectroscopy: μ₀, μ₂₄, and μ₄₄ of ²⁸SiH₄", Journal of Molecular Spectroscopy 153, 316-323 (1992). [link to article][92HoAiKr.SiH4]
31. Zhu, Q. S., Qian, H. B., Ma, H., Halonen, L., "High-resolution spectroscopic study of the (2000) stretching vibrational band and vibrational dependence of rotational constants of silane", Chemical Physics Letters 177, 261-264 (1991). [link to article][91ZhQiMa.SiH4]
32. Zhu, Q. S., Ma, H., Zhang, B. S., Ma, Y. R., Qian, H. B., "The (3000), (4000) and (5000) stretching overtone bands of silane. II. The rotational analysis in a normal-mode picture", Spectrochimica Acta Part A 46, 1323-1331 (1990). [link to article][90ZhMaZh.SiH4]
33. Lavorel, B., Millot, G., Kou, Q. L., Guelachvili, G., Bouzouba, K., Lepage, P., Tyuterev, V. G., Pierre, G., "Study of ν₁ ν₃ interacting bands of silane: Analysis of infrared and Raman spectra", Journal of Molecular Spectroscopy 143, 35-49 (1990). [link to article][90LaMiKo.SiH4]
34. Zhu, Q. S., Zhang, B. S., Ma, Y. R., Qian, H. B., "The (3000), (4000) and (5000) stretching overtone bands of silane. I. The effect of local-mode vibration on rotational constants", Spectrochimica Acta Part A 46, 1217-1222 (1990). [link to article][90ZhZhMa.SiH4]
35. Prinz, H., Kreiner, W. A., Loëte, M., Jouvard, J. M., "²⁹SiH₄ and ³⁰SiH₄: Dipole moment parameters of the ν₂ ν₄ dyad from Stark effect observations with laser sidebands", Journal of Molecular Spectroscopy 139, 30-38 (1990). [link to article][90PrKrLo.SiH4]
36. Zhu, Q. S., Zhang, B. S., Ma, Y. R., Qian, H. B., "Local-mode rotational structures in the (3000)and (5000) stretching overtone bands of silane", Chemical Physics Letters 164, 596-599 (1989). [link to article][89ZhZhMa.SiH4]
37. Skrzypczak, J., Pierre, G., Herlmont, F., Lemaire, J., "Saturated absorption of silane with a CO₂ wave-guide laser", Journal of Molecular Spectroscopy 138, 311-314 (1989). [link to article][89SkPiHe.SiH4]
38. Prinz, H., Höhe, W., Kreiner, W. A., Loëte, M., Hilico, J., Pierre, G., Magerl, G., Schupita, W., "The vibration-induced dipole moment in the ν₂ ν₄ diad of ¹³CD₄ and ²⁸SiH₄", Journal of Molecular Spectroscopy 135, 144-160 (1989). [link to article][89PrHoKr.SiH4]
39. Halonen, L., Child, M. S., "Local mode vibrations in tetrahedral molecules", Computer Physics Communications 51, 173-193 (1988). [link to article][88HaChxx.SiH4]
40. Oldani, M., Bauder, A., Pierre, G., "Microwave Fourier transform spectroscopy of rotational and rovibrational transitions in the ν₂ ν₄ dyad of silane ²⁸Si", Journal of Molecular Spectroscopy 117, 435-443 (1986). [link to article][86OlBaPi.SiH4]
41. Pierre, G., Valentin, A., Henry, L., "Étude par transformée de Fourier, du spectre, du silane dans la région de 1000 cm⁻¹. Analyse de la diade ν₂ et ν₄", Canadian Journal of Physics 64, 341-350 (1986). [link to article][86PiVaHe.SiH4]
42. Oldani, M., Bauder, A., Robiette, A. G., "Pure rotational Q-branch spectrum of silane-²⁸Si in the vibrational ground state observed by microwave Fourier transform spectroscopy", Journal of Molecular Spectroscopy 117, 60-68 (1986). [link to article][86OlBaRo.SiH4]
43. Allen, W. D., Schaefer, H. F., "Geometrical structures, force constants, and vibrational spectra of SiH, SiH₂, SiH₃, and SiH₄", Chemical Physics 108, 243-274 (1986). [link to article][86AlScxx.SiH]
44. Ohno, K., Matsuura, H., Endo, Y., Hirota, E., "The microwave spectra of deuterated silanes: SiH₃D, SiH₂D₂, and SiHD₃", Journal of Molecular Spectroscopy 111, 73-82 (1985). [link to article][85OhMaEn.SiH4]
45. Sadovsky, D. A., Zhilinsky, B. I., "Comparative-analysis of tetrahedral-molecule spectroscopic constants - ν₁, ν₃ bands of silane and germane", Optics and Spectroscopy 58, 565-570 (1985).[85SaZhxx.SiH4]
46. Pierre, G., Valentin, A., Henry, L., "Le niveau de base du silane obtenu à partir de l'étude du spectre à transformée de Fourier de ν₂ et ν₄", Canadian Journal of Physics 62, 254-259 (1984). [link to article][84PiVaHe.SiH4]
47. Bernheim, R. A., Lampe, F. W., O'Keefe, J. F., Qualey III, J. R., "Visible and near IR Si-H vibrational overtones in SiH₄", Journal of Chemical Physics 80, 5906 (1984). [link to article][84BeLaOk.SiH4]
48. Goldhaber, D. M., Betz, A. L., "Silane in IRC +10216", The Astrophysical Journal 279, L55 (1984). [link to article][84GoBexx.SiH4]
49. Takami, M., "Infrared-radiofrequency double-resonance in the SiH₄ ν₃ band using a tunable diode laser", Journal of Molecular Spectroscopy 93, 250-252 (1982). [link to article][82Takami.SiH4]
50. Halonen, L., Child, M. S., "A local mode model for tetrahedral molecules", Molecular Physics 46, 239-255 (1982). [link to article][82HaChxx.SiH4]
51. Larson, H. P., Fink, U., Smith, H. A., Davis, D. S., "The middle-infrared spectrum of Saturn: Evidence for phosphine and upper limits to other trace atmospheric constituents", The Astrophysical Journal 240, 327-337 (1980). [link to article][80LaFiSm.PH3]
52. Treffers, R. R., Larson, H. P., Fink, U., Gautier, T. N., "Upper limits to trace constituents in Jupiters atmosphere from an analysis of its 5μm spectrum", Icarus 34, 331-343 (1978). [link to article][78TrLaFi.SiH4]
53. Cabana, A., Gray, D. L., Mills, I. M., Robiette, A. G., "Vibration-rotation coupling between ν₁ and ν₃ in SiH₄", Journal of Molecular Spectroscopy 66, 174-176 (1977). [link to article][77CaGrMi.SiH4]
54. Johns, J. W. C., Kreiner, W. A., Susskind, J., "Measurement and analysis of the ν₄ band of silane", Journal of Molecular Spectroscopy 60, 400-411 (1976). [link to article][76JoKrSu.SiH4]
55. Fox, K., Person, W. B., "Transition moments in infrared‐active fundamentals of spherical‐top molecules", Journal of Chemical Physics 64, 5218 (1976). [link to article][76FoPexx.SiH4]
56. Kattenbe, H. W., Oskam, A., "Infrared and laser Raman gas spectra of SiH₄ and SiD₄", Journal of Molecular Spectroscopy 49, 52-69 (1974). [link to article][74KaOsxx.SiH4]
57. Dang-Nhu, M., Pierre, G., Saint-Loup, R., "The ground-state rotational constants of silane", Molecular Physics 28, 447-456 (1974). [link to article][74DaPiSa.SiH4]
58. Brégier, R., Lepage, P., "High resolution infrared spectrum of silane", Journal of Molecular Spectroscopy 45, 450-456 (1973). [link to article][73BrLexx.SiH4]
59. Levin, I. W., King, W. T., "Infrared intensities of silane", Journal of Chemical Physics 37, 1375 (1962). [link to article][62LeKixx.SiH4]
60. Ball, D. F., McKean, D. C., "Infrared intensities in SiH₄ and SiD₄", Spectrochimica Acta 18, 1019-1028 (1962). [link to article][62BaMcxx.SiH4]
61. King, W. T., Levin, I. W., "Infrared intensities of the fundamental frequencies of silane", Spectrochimica Acta 16, 1254 (1960). [link to article][60KiLexx.SiH4]
62. Steward, W. B., Nielsen, H. H., "The infrared absorption spectrum of silane", Physical Review 47, 828 (1935). [link to article][35StNixx.SiH4]
63. Steward, W. B., Nielsen, H. H., "The infrared absorption spectrum of silane", Journal of Chemical Physics 2, 712 (1934). [link to article][34StNixx.SiH4]

The ExoMol bibliometrician is Olga Yurchenko