The Recombination Rate Coefficient of Molecular Helium Ions in a Pulsed Afterglow at 1.86 Torr Page: XI
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Figure Page
12. The Reframed Electron Density
Measured as a Function of
Time at 1.86 Torr 98
13. The Detected Intensities as a Function
of Wavelength in the Spectral
Region Containing the Ionization
Limit of the n3P - 23S Series 100
14. The Detected Intensity as a Function
of Wavelength for the High-Energy
Tail of the Continuum Containing
the Ionization Limit of the
n3P - 23S Series 102
15. Absolute Intensity of the 183P - 23S
Transition as a Function of Time
at 1.86 Torr 104
16. The Detected Intensity of the
16p3n - 2s3£ + Band as a Function
of Time. . . " 107
17. The Functions F, f-^, f , and f4
Describing the Reaction Rate
of [He +] as a Function of Time 114
2
18. The Constant Determined as a
Function of Time 119
12 3
19. The Function F-^ , F^ , and F-^ as
a Function of Time 121
1 2
20. The Constants K^ and K as a
Function of Time 123
21. The Electron and Distribution
Temperature as a Function of
Time Measured by Each of the
Methods 126
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Hicks, Helen Segrave. The Recombination Rate Coefficient of Molecular Helium Ions in a Pulsed Afterglow at 1.86 Torr, dissertation, August 1972; Denton, Texas. (https://digital.library.unt.edu/ark:/67531/metadc164573/m1/11/: accessed April 18, 2024), University of North Texas Libraries, UNT Digital Library, https://digital.library.unt.edu; .