Add to ORKGThe electronic spectrum of diketene was investigated by the technique of variable-angle, electron energy loss spectroscopy, using the impact energies of 25 and 50 eV, and varying the scattering angle from 10° to 90°. Transitions have been observed at 4.36, 5.89, 6.88, and 7.84 eV. On the basis of the intensity variation of these transitions with impact energy and scattering angle, and through analogy with simpler molecules, the first three are tentatively assigned to an n → π* transition, a π → σ*(3s) Rydberg transition, and a π → π* transition
Author Institution: A. National Institutes of Health; Department of Chemistry, the Johns Hopkins Uni...
The electron impact excitation of 1,3-butadiene has been studied experimentally at impact energies o...
Author Institution: Departments of Chemistry and Physics, Stanford University; Princeton Plasma Phys...
The electronic spectrum of diketene was investigated by the technique of variable-angle, electron en...
The electronic spectrum of diketene was investigated by the technique of variable-angle, electron en...
The spectra of the diketone compounds biacetyl, acetylacetone, acetonylacetone, 1,2‐cyclohexanedione...
The design and construction of a high-resolution, low-energy and variable-angle electron impact spec...
A spectrometer has been devised for determining electronic energy levels of molecules by inelastic s...
The electron-impact energy loss spectrum of 1,3,5,7-cyclooctatetraene has been measured at electron ...
This paper describes a new spectroscopic tool in which optically forbidden electronic trans...
The electron-impact excitation of nitromethane has been studied at incident electron energies of 25,...
Energy loss spectra of 2.5 keV electrons, scattered by molecular targets through small angles, have ...
The electron-impact excitation spectra of the six fluoroethylenes and chlorotrifluoroethylene have b...
The electron impact excitation of trans-azomethane (i.e., trans-dimethyl diazine CH3–N–N–CH3) has be...
The technique of variable-angle electron energy-loss spectroscopy has been used to study the electro...
Author Institution: A. National Institutes of Health; Department of Chemistry, the Johns Hopkins Uni...
The electron impact excitation of 1,3-butadiene has been studied experimentally at impact energies o...
Author Institution: Departments of Chemistry and Physics, Stanford University; Princeton Plasma Phys...
The electronic spectrum of diketene was investigated by the technique of variable-angle, electron en...
The electronic spectrum of diketene was investigated by the technique of variable-angle, electron en...
The spectra of the diketone compounds biacetyl, acetylacetone, acetonylacetone, 1,2‐cyclohexanedione...
The design and construction of a high-resolution, low-energy and variable-angle electron impact spec...
A spectrometer has been devised for determining electronic energy levels of molecules by inelastic s...
The electron-impact energy loss spectrum of 1,3,5,7-cyclooctatetraene has been measured at electron ...
This paper describes a new spectroscopic tool in which optically forbidden electronic trans...
The electron-impact excitation of nitromethane has been studied at incident electron energies of 25,...
Energy loss spectra of 2.5 keV electrons, scattered by molecular targets through small angles, have ...
The electron-impact excitation spectra of the six fluoroethylenes and chlorotrifluoroethylene have b...
The electron impact excitation of trans-azomethane (i.e., trans-dimethyl diazine CH3–N–N–CH3) has be...
The technique of variable-angle electron energy-loss spectroscopy has been used to study the electro...
Author Institution: A. National Institutes of Health; Department of Chemistry, the Johns Hopkins Uni...
The electron impact excitation of 1,3-butadiene has been studied experimentally at impact energies o...
Author Institution: Departments of Chemistry and Physics, Stanford University; Princeton Plasma Phys...