Abstract
Absorption spectra of vacuum‐deposited films of ammonia have been obtained in the range 115 nm to 310 nm for a set of 15 deposition temperatures, Td, between 20 K and 80 K. Results focus upon the region 115 nm to 130 nm in overlapping D, E, F and G←X Rydberg transitions involving Wannier‐Mott excitons. We identify two phases of ammonia, showing the solid to be polymorphic. Peak absorption wavelengths in the region of interest are found to shift to the red by 299 cm−1, for Td between 20 K to 50 K, and 1380 cm−1 for Td between 55 K to 80 K. Shifts provide evidence for the presence of spontaneously generated electric fields in these films, of values in excess of 108 V m−1 for Td of 20 K to 50 K to a few times 107 V m−1 for 55 K to 80 K. Results enable us to place a lower limit of 1.58 nm on the size of crystallites in the low temperature regime. This dimension represents 16 unit cells or 64 species, giving a more quantitative description than the nebulous term amorphous, as applied to solid ammonia. We also determine that crystallites formed in the high temperature regime contain, within ±20 %, 1688, 756 and 236 molecules of ammonia, respectively at Td of 65 K, 60 K and 55 K.
Highlights
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Films of solid ammonia were prepared as a function of thickness and temperature of deposition, Td, and VUV absorption spectra were recorded
Recollecting that the spontelectric field arises through dipole orientation, we define this degree of orientation as < μ >/μ0, where μ0 is the dipole moment of the ammonia in the solid state www.chemistryopen.org where < ES >, < EA > and ζ are taken to be independent of deposition temperature, over any temperature range for which there is no structural modification associated with a phase change
Summary
Copyright and Moral Rights for the articles on this site are retained by the individual authors and/or other copyright owners. The changes in absorption wavelength, with temperature of deposition, demonstrate that solid ammonia films exhibit the action of a spontelectric field upon a WM exciton.
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