Landolt-Börnstein - Group II Molecules and Radicals
Volume 20C1γ 2013

Molecular Constants Mostly from Infrared Spectroscopy · Non-linear Triatomic Molecules

Part 1γ

Editors: G. Guelachvili
ISBN: 978-3-642-32187-0 (Print) 978-3-642-32188-7 (Online)
DOI: 10.1007/978-3-642-32188-7

Table of contents (122 documents)

  1. Online Document 1

    Non-linear Triatomic Molecules · Introduction

    G. Guelachvili, N. Picqué

  2. Online Document 2

    Non-linear Triatomic Molecules · Survey

    G. Guelachvili, N. Picqué

  3. Online Document 3

    Table 1. H2 17O (H17OH): Rotational and distortion constants for the ground state

    G. Guelachvili, N. Picqué

  4. Online Document 4

    Table 2. H2 17O (H17OH): Ground state rotational constants

    G. Guelachvili, N. Picqué

  5. Online Document 5

    Table 3. H2 17O (H17OH): Molecular parameters for the ground state

    G. Guelachvili, N. Picqué

  6. Online Document 6

    Table 4. H2 17O (H17OH): Molecular parameters for the (000) and the (010) states

    G. Guelachvili, N. Picqué

  7. Online Document 7

    Table 5. H2 17O (H17OH): Molecular parameters for the (020), (100), and the (001) states

    G. Guelachvili, N. Picqué

  8. Online Document 8

    Table 6. H2 17O (H17OH): Fermi and Coriolis coupling constants for the triad {(020), (100), (001)}

    G. Guelachvili, N. Picqué

  9. Online Document 9

    Table 7. H2 17O (H17OH): Molecular constants for the vibrational states (003), (201), (102), (300), (121), (022), (220), (041), (140), and (070) of the first decade

    G. Guelachvili, N. Picqué

  10. Online Document 10

    Table 8. H2 17O (H17OH): Fermi and Coriolis coupling constants for the vibrational states (003), (201), (102), (300), (121), (022), (220), (041), (140), and (070) of the first decade

    G. Guelachvili, N. Picqué

  11. Online Document 11

    Table 9. H2 17O (H17OH): Band origins for 27 vibrational transitions

    G. Guelachvili, N. Picqué

  12. Online Document 12

    Table 10. H2 17O (H17OH): Calculated vibrational band origins for 103 vibrational transitions

    G. Guelachvili, N. Picqué

  13. Online Document 13

    Table 11. H2 17O (H17OH): Force constants for the electronic ground state

    G. Guelachvili, N. Picqué

  14. Online Document 14

    Table 12. H2 17O (H17OH): Fitted PES parameters

    G. Guelachvili, N. Picqué

  15. Online Document 15

    Table 13. H2 17O (H17OH): Fit coefficients c ijk of the morphing function

    G. Guelachvili, N. Picqué

  16. Online Document 16

    Table 14. H2 17O (H17OH): Force constants of the PES CVRQD calculated at its minimum

    G. Guelachvili, N. Picqué

  17. Online Document 17

    Table 15. H2 17O (H17OH): Dipole moment expansion coefficients for the (000)–(000) and the (010)–(010) bands

    G. Guelachvili, N. Picqué

  18. Online Document 18

    Table 16. H2 17O (H17OH): Dipole moment expansion coefficients for the (010)–(000) band

    G. Guelachvili, N. Picqué

  19. Online Document 19

    Table 17. H2 17O (H17OH): Dipole moment expansion coefficients for the (100)–(000) band

    G. Guelachvili, N. Picqué

  20. Online Document 20

    Table 18. H2 17O (H17OH): Dipole moment expansion coefficients for the (001)–(000) band

    G. Guelachvili, N. Picqué

  21. Online Document 21

    Table 19. H2 17O (H17OH): Dipole moment expansion effective coefficients for the (020)–(000) band

    G. Guelachvili, N. Picqué

  22. Online Document 22

    Table 20. H2 17O (H17OH): Dipole moment expansion effective coefficients for the (020)–(010) band

    G. Guelachvili, N. Picqué

  23. Online Document 23

    Table 21. H2 17O (H17OH): Band intensity for 9 vibrational bands

    G. Guelachvili, N. Picqué

  24. Online Document 24

    Table 22. H2 17O (H17OH): Band intensity for the (001)–(000) vibrational bands

    G. Guelachvili, N. Picqué

  25. Online Document 25

    Table 23. H2 17O (H17OH): Band intensity for the (001)–(000), (100)–(000), and (020)–(000) vibrational bands

    G. Guelachvili, N. Picqué

  26. Online Document 26

    Table 24. H2 17O (H17OH): Band intensity for 12 vibrational bands

    G. Guelachvili, N. Picqué

  27. Online Document 27

    Table 25. H2 17O (H17OH): Band intensity for the 3ν polyad

    G. Guelachvili, N. Picqué

  28. Online Document 28

    Table 26. H2 17O (H17OH): Measured frequencies within the vibrational ground state (000), in the range 0.45–177 cm–1

    G. Guelachvili, N. Picqué

  29. Online Document 29

    Table 27. H2 17O (H17OH): Line position and intensity for the (020)–(020) transitions in the range 51–354 cm–1

    G. Guelachvili, N. Picqué

  30. Online Document 30

    Table 28. H2 17O (H17OH): Line position and intensity for rotational transitions within the vibrational ground state (000), in the range 53–728 cm–1

    G. Guelachvili, N. Picqué

  31. Online Document 31

    Table 29. H2 17O (H17OH): Experimental wavenumber, intensity, and shape parameters of rotational transitions within the vibrational ground state (000), in the range 598–797 cm–1

    G. Guelachvili, N. Picqué

  32. Online Document 32

    Table 30. H2 17O (H17OH): Line position, intensity, and shape parameters for the (010)–(000) transitions in the range 1011–2224 cm–1

    G. Guelachvili, N. Picqué

  33. Online Document 33

    Table 31. H2 17O (H17OH): Line position, intensity, and shape parameters for the (020)–(010) transitions in the range 1314–1939 cm–1

    G. Guelachvili, N. Picqué

  34. Online Document 34

    Table 32. H2 17O (H17OH): Line shape related parameters for the (010)–(000) transitions in the range 1371–1735 cm–1

    G. Guelachvili, N. Picqué

  35. Online Document 35

    Table 33. H2 17O (H17OH): Line position and intensity for the (100)–(010) transitions in the range 1780–2299 cm–1

    G. Guelachvili, N. Picqué

  36. Online Document 36

    Table 34. H2 17O (H17OH): Line position and intensity for the (001)–(010) transitions in the range 1969–2335 cm–1

    G. Guelachvili, N. Picqué

  37. Online Document 37

    Table 35. H2 17O (H17OH): Line position and intensity for the (030)–(010) transitions in the range 3405–3886 cm–1

    G. Guelachvili, N. Picqué

  38. Online Document 38

    Table 36. H2 17O (H17OH): Line position, intensity, and shape parameters for the (020)–(000) transitions in the range 2927–3944 cm–1

    G. Guelachvili, N. Picqué

  39. Online Document 39

    Table 37. H2 17O (H17OH): Line position, intensity, and shape parameters for the (100)–(000) transitions in the range 3223–4126 cm–1

    G. Guelachvili, N. Picqué

  40. Online Document 40

    Table 38. H2 17O (H17OH): Line position, intensity, and shape parameters for the (001)–(000) transitions in the range 3225–4242 cm–1

    G. Guelachvili, N. Picqué

  41. Online Document 41

    Table 39. H2 17O (H17OH): Line position and intensity for the (110)–(010) transitions in the range 3405–3886 cm–1

    G. Guelachvili, N. Picqué

  42. Online Document 42

    Table 40. H2 17O (H17OH): Line position, intensity, and shape parameters for the (011)–(010) transitions in the range 3591–3857 cm–1

    G. Guelachvili, N. Picqué

  43. Online Document 43

    Table 41. H2 17O (H17OH): Line position, intensity, and shape parameters for the (001)–(000) transitions in the range 4206–4348 cm–1

    G. Guelachvili, N. Picqué

  44. Online Document 44

    Table 42. H2 17O (H17OH): Line position, intensity, and shape parameters for the (030)–(000) transitions in the range 4525–5511 cm–1

    G. Guelachvili, N. Picqué

  45. Online Document 45

    Table 43. H2 17O (H17OH): Line position, intensity, and shape parameters for the (011)–(000) transitions in the range 4778–5953 cm–1

    G. Guelachvili, N. Picqué

  46. Online Document 46

    Table 44. H2 17O (H17OH): Line position, intensity, and shape parameters for the (011)–(000) transitions in the range 4934–5813 cm–1

    G. Guelachvili, N. Picqué

  47. Online Document 47

    Table 45. H2 17O (H17OH): Line position, intensity, and shape parameters for the (110)–(000) transitions in the range 4940–5664 cm–1

    G. Guelachvili, N. Picqué

  48. Online Document 48

    Table 46. H2 17O (H17OH): Line position, intensity, and shape parameters for the (021)–(010) transitions in the range 5101–5371 cm–1

    G. Guelachvili, N. Picqué

  49. Online Document 49

    Table 47. H2 17O (H17OH): Line position and intensity for the (040)–(000) transitions in the range 5973–6599 cm–1

    G. Guelachvili, N. Picqué

  50. Online Document 50

    Table 48. H2 18O (H18OH): Rotational and distortion constants

    G. Guelachvili, N. Picqué

  51. Online Document 51

    Table 49. H2 18O (H18OH): Ground state rotational constants

    G. Guelachvili, N. Picqué

  52. Online Document 52

    Table 50. H2 18O (H18OH): Molecular parameters for the ground state

    G. Guelachvili, N. Picqué

  53. Online Document 53

    Table 51. H2 18O (H18OH): Molecular constants for the ground state

    G. Guelachvili, N. Picqué

  54. Online Document 54

    Table 52. H2 18O (H18OH): Effective and equilibrium ground state rotational constants

    G. Guelachvili, N. Picqué

  55. Online Document 55

    Table 53. H2 18O (H18OH): Molecular parameters for the (000) and the (010) states

    G. Guelachvili, N. Picqué

  56. Online Document 56

    Table 54. H2 18O (H18OH): Fitted parameters of the effective Hamiltonian of the (000) and the (010) vibrational states

    G. Guelachvili, N. Picqué

  57. Online Document 57

    Table 55. H2 18O (H18OH): Molecular constants for the (000) and the (010) states

    G. Guelachvili, N. Picqué

  58. Online Document 58

    Table 56. H2 18O (H18OH): Molecular parameters for the (020), (100), and the (001) states

    G. Guelachvili, N. Picqué

  59. Online Document 59

    Table 57. H2 18O (H18OH): Fermi and Coriolis coupling constants for the triad {(020), (100) (001)}

    G. Guelachvili, N. Picqué

  60. Online Document 60

    Table 58. H2 18O (H18OH): Molecular parameters for the (030), (110), and the (011) states

    G. Guelachvili, N. Picqué

  61. Online Document 61

    Table 59. H2 18O (H18OH): Fermi and Coriolis coupling constants for the triad {(030), (110) (011)}

    G. Guelachvili, N. Picqué

  62. Online Document 62

    Table 60. H2 18O (H18OH): Molecular parameters for the (021), (101), (120), (200), (002), and the (040) states

    G. Guelachvili, N. Picqué

  63. Online Document 63

    Table 61. H2 18O (H18OH): Coriolis coupling constants for the first hexad {(021), (101), (120), (200), (002), (040)}

    G. Guelachvili, N. Picqué

  64. Online Document 64

    Table 62. H2 18O (H18OH): Fermi coupling constants for the first hexad {(021), (101), (120), (200), (002), (040)}

    G. Guelachvili, N. Picqué

  65. Online Document 65

    Table 63. H2 18O (H18OH): Calculated vibrational band origins for 103 vibrational transitions

    G. Guelachvili, N. Picqué

  66. Online Document 66

    Table 64. H2 18O (H18OH): Band origins for 39 vibrational transitions

    G. Guelachvili, N. Picqué

  67. Online Document 67

    Table 65. H2 18O (H18OH): Force constants of the PES CVRQD calculated at its minimum

    G. Guelachvili, N. Picqué

  68. Online Document 68

    Table 66. H2 18O (H18OH): Force constants for the electronic ground state

    G. Guelachvili, N. Picqué

  69. Online Document 69

    Table 67. H2 18O (H18OH): Fitted PES parameters

    G. Guelachvili, N. Picqué

  70. Online Document 70

    Table 68. H2 18O (H18OH): Fit coefficients c ijk of the morphing function

    G. Guelachvili, N. Picqué

  71. Online Document 71

    Table 69. H2 18O (H18OH): Dipole moment expansion coefficients for the (000)–(000) transitions

    G. Guelachvili, N. Picqué

  72. Online Document 72

    Table 70. H2 18O (H18OH): Dipole moment expansion coefficients for the (010)–(000) band

    G. Guelachvili, N. Picqué

  73. Online Document 73

    Table 71. H2 18O (H18OH): Dipole moment expansion coefficients for the (100)–(000) band

    G. Guelachvili, N. Picqué

  74. Online Document 74

    Table 72. H2 18O (H18OH): Dipole moment expansion coefficients for the (001)–(000) band

    G. Guelachvili, N. Picqué

  75. Online Document 75

    Table 73. H2 18O (H18OH): Dipole moment expansion effective coefficients for the (020)–(000) band

    G. Guelachvili, N. Picqué

  76. Online Document 76

    Table 74. H2 18O (H18OH): Dipole moment expansion effective coefficients for the (020)–(010) band

    G. Guelachvili, N. Picqué

  77. Online Document 77

    Table 75. H2 18O (H18OH): Band intensity for the 3ν polyad

    G. Guelachvili, N. Picqué

  78. Online Document 78

    Table 76. H2 18O (H18OH): Band intensity for 16 vibrational bands

    G. Guelachvili, N. Picqué

  79. Online Document 79

    Table 77. H2 18O (H18OH): Band intensity for the (001)–(000) vibrational bands

    G. Guelachvili, N. Picqué

  80. Online Document 80

    Table 78. H2 18O (H18OH): Band intensity for 15 vibrational bands

    G. Guelachvili, N. Picqué

  81. Online Document 81

    Table 79. H2 18O (H18OH): Band intensity for the (110)–(000), (030)–(000), and (011)–(000) vibrational bands

    G. Guelachvili, N. Picqué

  82. Online Document 82

    Table 80. H2 18O (H18OH): Band intensity for the (101)–(000), (021)–(000), (200)–(000), (002)–(000), (120)–(000), and (040)–(000) vibrational bands

    G. Guelachvili, N. Picqué

  83. Online Document 83

    Table 81. H2 18O (H18OH): Band intensity for the (131)–(000), (211)–(000), (013)–(000), (230)–(000), (310)–(000), and the (112)–(000) vibrational transitions of the second decade

    G. Guelachvili, N. Picqué

  84. Online Document 84

    Table 82. H2 18O (H18OH): Band intensity for the (011)–(000) and the (110)–(000) vibrational transitions

    G. Guelachvili, N. Picqué

  85. Online Document 85

    Table 83. H2 18O (H18OH): Measured frequencies within the vibrational ground state (000), in the range 0.18–208 cm–1

    G. Guelachvili, N. Picqué

  86. Online Document 86

    Table 84. H2 18O (H18OH): Line position and intensity for rotational transitions within the vibrational ground state (000), in the range 53–725 cm–1

    G. Guelachvili, N. Picqué

  87. Online Document 87

    Table 85. H2 18O (H18OH): Line position and intensity for the (100)–(100) transitions in the range 53–340 cm–1

    G. Guelachvili, N. Picqué

  88. Online Document 88

    Table 86. H2 18O (H18OH): Line position and intensity for the (001)–(001) transitions in the range 69–332 cm–1

    G. Guelachvili, N. Picqué

  89. Online Document 89

    Table 87. H2 18O (H18OH): Experimental wavenumber, and intensity for the (010)–(010) transitions in the range 399–609 cm–1

    G. Guelachvili, N. Picqué

  90. Online Document 90

    Table 88. H2 18O (H18OH): Experimental wavenumber, and intensity for the (000)–(000) transitions in the range 414–806 cm–1

    G. Guelachvili, N. Picqué

  91. Online Document 91

    Table 89. H2 18O (H18OH): Calculated wavenumber and intensity of rotational transitions within the vibrational ground state (010), in the range 502–674 cm–1

    G. Guelachvili, N. Picqué

  92. Online Document 92

    Table 90. H2 18O (H18OH): Experimental wavenumber, intensity, and shape parameters of rotational transitions within the vibrational ground state (000), in the range 595–943 cm–1

    G. Guelachvili, N. Picqué

  93. Online Document 93

    Table 91. H2 18O (H18OH): Experimental wavenumber, intensity, and line shape parameter for the (010)–(000) transitions in the range 1005–2310 cm–1

    G. Guelachvili, N. Picqué

  94. Online Document 94

    Table 92. H2 18O (H18OH): Experimental wavenumber, intensity, and line shape parameter of rotational transitions within the vibrational ground state (000), in the range 1009–1193 cm–1

    G. Guelachvili, N. Picqué

  95. Online Document 95

    Table 93. H2 18O (H18OH): Line position, intensity, and shape parameters for the (010)–(000) transitions in the range 1009–2219 cm–1

    G. Guelachvili, N. Picqué

  96. Online Document 96

    Table 94. H2 18O (H18OH): Experimental wavenumber, and intensity for the (010)–(000) transitions in the range 1082–2310 cm–1

    G. Guelachvili, N. Picqué

  97. Online Document 97

    Table 95. H2 18O (H18OH): Experimental wavenumber, and intensity of rotational transitions within the vibrational ground state (000), in the range 1090–1193 cm–1

    G. Guelachvili, N. Picqué

  98. Online Document 98

    Table 96. H2 18O (H18OH): Experimental wavenumber, and intensity for the (020)–(010) transitions in the range 1104–2091 cm–1

    G. Guelachvili, N. Picqué

  99. Online Document 99

    Table 97. H2 18O (H18OH): Line position, intensity, and shape parameters for the (020)–(010) transitions in the range 1284–1934 cm–1

    G. Guelachvili, N. Picqué

  100. Online Document 100

    Table 98. H2 18O (H18OH): Line position and intensity for the (030)–(020) transitions in the range 1290–1856 cm–1

    G. Guelachvili, N. Picqué

  101. Online Document 101

    Table 99. H2 18O (H18OH): Line shape related parameters for the (010)–(000) transitions in the range 1334–1740 cm–1

    G. Guelachvili, N. Picqué

  102. Online Document 102

    Table 100. H2 18O (H18OH): Experimental wavenumber, and intensity for the (100)–(010) transitions in the range 1807–2297 cm–1

    G. Guelachvili, N. Picqué

  103. Online Document 103

    Table 101. H2 18O (H18OH): Experimental wavenumber, intensity, and line shape parameter for the (001)–(010) transitions in the range 1940–2331 cm–1

    G. Guelachvili, N. Picqué

  104. Online Document 104

    Table 102. H2 18O (H18OH): Experimental wavenumber, and intensity for the (001)–(010) transitions in the range 1950–2474 cm–1

    G. Guelachvili, N. Picqué

  105. Online Document 105

    Table 103. H2 18O (H18OH): Experimental wavenumber, and intensity for the (001)–(000) transitions in the range 2933–4357 cm–1

    G. Guelachvili, N. Picqué

  106. Online Document 106

    Table 104. H2 18O (H18OH): Experimental wavenumber, and intensity for the (020)–(000) transitions in the range 2671–4236 cm–1

    G. Guelachvili, N. Picqué

  107. Online Document 107

    Table 105. H2 18O (H18OH): Experimental wavenumber, and intensity for the (030)–(010) transitions in the range 2870–3895 cm–1

    G. Guelachvili, N. Picqué

  108. Online Document 108

    Table 106. H2 18O (H18OH): Line position, intensity, and shape parameters for the (020)–(000) transitions in the range 2892–3879 cm–1

    G. Guelachvili, N. Picqué

  109. Online Document 109

    Table 107. H2 18O (H18OH): Experimental wavenumber, and intensity for the (100)–(000) transitions in the range 2931–4402 cm–1

    G. Guelachvili, N. Picqué

  110. Online Document 110

    Table 108. H2 18O (H18OH): Line position, intensity, and shape parameters for the (100)–(000) transitions in the range 3117–4152 cm–1

    G. Guelachvili, N. Picqué

  111. Online Document 111

    Table 109. H2 18O (H18OH): Line position, intensity, and shape parameters for the (001)–(000) transitions in the range 3160–4290 cm–1

    G. Guelachvili, N. Picqué

  112. Online Document 112

    Table 110. H2 18O (H18OH): Experimental wavenumber, and intensity for the (110)–(010) transitions in the range 3457–4056 cm–1

    G. Guelachvili, N. Picqué

  113. Online Document 113

    Table 111. H2 18O (H18OH): Experimental wavenumber, and intensity for the (011)–(010) transitions in the range 3351–4099 cm–1

    G. Guelachvili, N. Picqué

  114. Online Document 114

    Table 112. H2 18O (H18OH): Line position, intensity, and shape parameters for the (001)–(000) transitions in the range 4206–4348 cm–1

    G. Guelachvili, N. Picqué

  115. Online Document 115

    Table 113. H2 18O (H18OH): Experimental and calculated wavenumber, and intensity for the (030)–(000) transitions in the range 4433–5597 cm–1

    G. Guelachvili, N. Picqué

  116. Online Document 116

    Table 114. H2 18O (H18OH): Experimental and calculated wavenumber, and intensity for the (110)–(000) transitions in the range 4735–5845 cm–1

    G. Guelachvili, N. Picqué

  117. Online Document 117

    Table 115. H2 18O (H18OH): Experimental and calculated wavenumber, and intensity for the (011)–(000) transitions in the range 4769–6086 cm–1

    G. Guelachvili, N. Picqué

  118. Online Document 118

    Table 116. H2 18O (H18OH): Line position, and intensity for the (021)–(010) transitions in the range 4897–5918 cm–1

    G. Guelachvili, N. Picqué

  119. Online Document 119

    Table 117. H2 18O (H18OH): Experimental wavenumber, and intensity for the (120)–(010) transitions in the range 4956–5509 cm–1

    G. Guelachvili, N. Picqué

  120. Online Document 120

    Table 118. H2 18O (H18OH): Line position, intensity, and shape parameters for the (021)–(010) transitions in the range 5083–5420 cm–1

    G. Guelachvili, N. Picqué

  121. Online Document 121

    Table 119. H2 18O (H18OH): Line position and intensity for the (021)–(010) transitions in the range 5915–6087 cm–1

    G. Guelachvili, N. Picqué

  122. Online Document 122

    Table 120. H2 18O (H18OH): Line position and intensity for the (040)–(000) transitions in the range 5924–6999 cm–1

    G. Guelachvili, N. Picqué