โ Scribed by M. Domke; C. Xue; A. Puschmann; T. Mandel; E. Hudson; D.A. Shirley; G. Kaindl
No coin nor oath required. For personal study only.
High-resolution, high-intensity photoionization studies were performed near the carbon and oxygen K-edges of gas-phase CO. At least 37 absorption lines were resolved at the carbon K-edge, and new information was obtained about the x*, Rydberg, and double-excitation resonances, including Rydberg states up to n= 7 and vibrational transitions up to u' = 3. Vibrational structure in oxygen is Is-%* and Rydberg states was resolved for the first time. The derived molecular structure parameters are consistent with the Zt 1 approximation. High-resolution, high-intensity core-level photoabsorption promises new opportunities in vibrational state-to-state chemistry and surface science.
๐ SIMILAR VOLUMES
Conditions leading to an explosive reaction of carbon monoxide and oxygen in the presence of small amounts of water have been examined at temperatures of 973 and 1048 K. Carbon monoxide and water were formed in the presence of oxygen by reaction with a thin film of carbon deposited on a quartz vesse
Zero-kinetic-energy photoelectron spectroscopy was used to measure the Franck-Condon factors for the carbon and nitrogen K-shell ionized states in Nz and CO. Corresponding features in the two spectra showed nearly identical energy spacings, both below and above the ionization threshold, as predicted