Resonant and non-resonant multiphonon ionization studies of some anilines

Zimmerman, Jeffrey Alan.

January 1989

Thesis (Ph. D.)--University of South Florida, 1989. / Includes bibliographical references (leaves 204-208).

Alternative decouplings of the electron propagator

Born, Gregory Jay,

January 1979

Thesis--University of Florida. / Description based on print version record. Typescript. Vita. Includes bibliographical references (leaves 157-163).

Photoionization. Optoelectronic devices.

Photoabsorption and photoionization measurements on Constituent atmospheric gases in the extreme VUV

Cole, Barrett Ewing.

January 1978

Thesis--Wisconsin. / Vita. Includes bibliographical references.

A photoionization mass spectrometric study of cluster species in a supersonic molecular beam carbon dioxide and methanol /

Jones, Gilbert Glenn,

January 1975

Thesis (Ph. D.)--University of Wisconsin--Madison, 1975. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 229-241).

A photoionization mass spectrometry study of some small molecules utilization a high intensity molecular beam sampling system

Parr, Gary Raymond,

January 1973

Thesis (Ph. D.)--University of Wisconsin--Madison, 1973. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.

Mass spectrometry. Photoionization.

Studies on the application of laser photoionization in supersonic-jets for the generation of intense ionic clusters

Navea, Juan G. Manzanares, Carlos E.

January 2006

Thesis (Ph.D.)--Baylor University, 2006. / Includes bibliographical references (p. 201-208).

Molecular beams. Photoionization.

Multi-electron dynamics investigated with strong-field tunnelling and XUV photoionization

Nemeth, Gregory Richard Alexander James

January 2011

No description available.

530

Photoionization ; Multiphoton ionization

Investigations of resonantly enhanced multiphoton ionizations of atomic mercury and potassium

Mah, Kelly Robert Lim

January 1987

Two investigations are reported on the application of resonantly enhanced multiphoton ionization (RMPI) to gaseous mixtures of an atomic vapor and a few Torr of argon. Photon fluxes large enough to ionize atoms by RMPI were produced by focussing down the light from a tunable pulsed dye laser. The irradiances generated were of the order of 500MWcm⁻². Ionization was detected by a voltage biased wire electrode that simply collected the photoelectrons either directly or after some gas multiplication. One investigation was the measurement of the dependence of RMPI processes in mercury on the polarization of the incident light for comparisons with theoretical calculations. The processes were four-photon resonant absorptions to either a ¹S₀ or ¹’³D₂ level followed by single photon ionization. Complete photoionization of all atoms excited to the resonant levels is established and the measured polarization dependences are found to agree with the calculated polarization dependence for the resonant excitation step of the RMPI process. Unexplained observations of the distortions in the polarization dependence of the ion yield and the absorption linewidth of the 6d ¹D₂ resonance are discussed. The second investigation was a study of the density dependent electric dipole forbidden two-photon resonant transition ²S → ²P in three-photon RMPI spectra of the Rydberg states of potassium. Stark interactions are shown to be unlikely and too weak. From the characteristics of the spectra, the excitation process is identified as a laser-assisted collision interaction. / Science, Faculty of / Physics and Astronomy, Department of / Graduate

Photoionization of gases

Multiphoton processes

Electron scattering from and photoionization of open-shell atoms

Lin, Dong

01 January 1999

No description available.

Electrons -- Scattering

Photoionization

Electron, Photon, and Positron Scattering Dynamics of Complex Molecular Targets

Carey, Ralph

2012 May 1900

Electron scattering cross sections have been computed for pyridine and pyrimidine using the static-exchange approximation with model potential to account for dynamic electron correlation. To obtain well-converged orbitals, we have expanded all partial waves to a maximum angular momentum of l = 60 for both targets. We have obtained total cross sections for electron scattering energies to 20 eV. Both targets display similar features, namely a dipole-induced increase in the integrated cross section at scattering energies below 5 eV, and peaks corresponding to resonances in b1, a2, and b1 symmetries. These resonances were investigated through a Siegert eigenstate analysis and Breit-Wigner fit of the SECP eigenphase sums. They were also compared to the virtual orbitals obtained from a minimum basis set Hartree-Fock calculation on both targets. We consider electron scattering resonances from cis-diamminedichloroplatinum, [Pt(NH3)2Cl2], the ligand molecular species Cl2 (1Sigma+g ), and the isolated transition metal center Pt in a nondegenerate atomic state (1S) at the SECP level of theory. As a rigorous comparison to the single-state, single-configuration SECP level results of these smaller, yet electron dense targets, we have also considered scattering from ground state Cl2 and Pt in the 1S and 3D states in the multichannel configuration-interaction (MCCI) approximation originally developed for photoionization for scattering up to 10 eV. Photoionization cross sections and angular distributions in the recoil frame (RFPAD) and molecular frame (MFPAD) have been computed for inner-shell C 1s and Cl 2p ionization from the chloroalkanes chloromethane and chloroethane, with ionization leading to a variety of ionic fragment states. We have also computed valence level ionization from the nitro molecule nitromethane CH3NO2 leading to the dissociation of the CN bond. All of these calculations were performed in the frozen-core Hartree-Fock approximation. Even at this level of theory, we obtain computed results that compare well to the photoelectronphotoion coincidence measurements. The fullerene C20 is the smallest fullerene predicted to exist, with most relevant structural calculations suggesting the reduction of the icosahedral symmetry into one in which the target species possesses at maximum only a dihedral axis. We have computed positron scattering cross sections for the molecule in two low-symmetry structural isomers Ci and C2, within the HF approximation. Density functional expressions were used to incorporate important positron-electron interactions within the calculation. We have found similar cross sections and resonance features for both isomers, including a positron scattering resonance whose density is found within the framework of the fullerene cluster.

Photoionization

electron scattering

computational chemistry