|
Name |
Subject of Thesis |
University |
Year PhD Received |
|---|---|---|---|
|
Earl H. Hygh |
Theory of Nuclear Quadrupole Interaction in Semi-Metals-Antimony |
University of California, Riverside |
1964 |
|
Theory of Band- Structure and Hyperfine Interactions in Indium |
University of California, Riverside |
1964 |
|
|
A. Norman Jette |
Theory of Self-Trapped Hole in Ionic Crystals |
University of California, Riverside |
1964 |
|
Dennis L. Ikenberry |
Investigation of Chemical Shifts in Ionic Crystals |
University of California, Riverside |
1965 |
|
Wei-Mei Shyu |
Origin of Knight-Shifts in Magnetic Resonance in Light Metals-Beryllium and Aluminum |
University of California, Riverside |
1965 |
|
R.R. Sharma |
Zero-Field Splitting of Half-Filled Shell S-State Transition Metal Ions |
University of California, Riverside |
1965 |
|
Edward S. Chang |
Many-Body Perturbation Theory of Correlation Energy, Hyperfine Interaction and Polarizability of Lithium Atom |
University of California, Riverside |
1967 |
|
Supriya Ray |
Theory of Hyperfine Pressure Shift of Hydrogen and Nitrogen Atoms in Helium |
University of California, Riverside |
1968 |
|
Mechanisms Contributing to Knight Shifts, Relaxation Times and Indirect Spin-Spin Interactions in Alkali Metals |
University of California, Riverside |
1968 |
|
|
Lambros Tterlikkis |
Relativistic Theory of Hyperfine Interaction in Metals |
University of California, Riverside |
1968 |
|
Robert J. Quigley |
Self-Trapping of Off- Center Impurities in Ionic Crystals |
University of California, Riverside |
1968 |
|
Kenneth J. Duff |
First-Principles Theory for Origin of Ferromagnetism and Hyperfine Interactions in Iron |
University of California, Riverside |
1969 |
|
Col. Pil Soon Han |
Electronic Structure and Magnetic and Hyperfine Properties of Iron Porphyrin Chloride-Hemin |
University of California, Riverside |
1969 |
|
Nader C. Dutta |
Many-Body Theory of Hyperfine Interactions in Nitrogen and Phosphorous |
University of California, Riverside |
1969 |
|
Chizuko Matsubara Dutta |
Many-Body Time- Dependent Perturbation Theory of Interacting Atoms |
University of California, Riverside |
1970 |
|
Theory of Hyperfine Pressure Shift of H-Rare Gas Systems Their Temperature Dependence |
University of California, Riverside |
1971 |
|
|
Theory of Magnetic Hyperfine and Nuclear Quadrupole Interactions in Solid and Liquid Group II Metals |
University of California, Riverside |
1971 |
|
|
Taesul Lee |
One-Center Many-Body Perturbation Theory of Binding Energy and Hyperfine Interactions in Molecular Systems |
University of California, Riverside |
1971 |
|
Many-Body Perturbation Theory of Hyperfine Properties of Diatomic Molecules |
University of California, Riverside |
1972 |
|
|
Chander M. Singal |
Origin of Ferromagnetism and Hyperfine Field in Ferromagnetic Cobalt |
State University of New York at Albany |
1974 |
|
Surendra N. Ray |
Relativistic Many- Body Perturbation Theory of Magnetic and Hyperfine Properties of Transition Metal and Rare Earth Atoms |
State University of New York at Albany |
1975 |
|
Nimain C. Mahapatra |
First-Principle Theory Band-Structure and Magnetic and Hyperfine Properties of Ferromagnetic Nickel |
State University of New York at Albany |
1975 |
|
Ayodele J. Coker |
Theory of Electronic Structure and Nuclear Quadrupole Interaction in Crystalline and Amorphous Tellurium |
State University of New York at Albany |
1978 |
|
Michael Thompson |
Theory of Band-Structure and Nuclear Quadrupole Interactions in Pure Cadmium, Indium and Alloy Systems |
State University of New York at Albany |
1978 |
|
Electronic Structure and Magnetic and Hyperfine Properties of Methemoglobin and Nitrosylhemoglobin |
State University of New York at Albany |
1979 |
|
|
Avinash C. Beri |
Theory of Nuclear Quadrupole Interaction and Optical Properties of Transition Metal Compounds |
State University of New York at Albany |
1979 |
|
Mina Vajed- Samii |
Hyperfine Interactions of Alkali Metal Atoms |
State University of New York at Albany |
1979 |
|
Nuclear Quadrupole Interaction and Zero-Field Splitting of Half-Filled Shell Rare-Earth Ions |
State University of New York at Albany |
1980 |
|
|
Shantilata Mishra |
Electronic Structure and Hyperfine Properties of Mn and Co Hemoglobin |
State University of New York at Albany |
1980 |
|
Pratap C. Pattnaik |
Electronic Structures and Hyperfine Interactions in Alkali Metals and Their Pressure Dependence |
State University of New York at Albany |
1980 |
|
Relativistic Many- Body Perturbation Theory of Forbidden Transitions Due to the Presence of Parity- Violating Neutral Weak Interaction |
State University of New York at Albany |
1981 |
|
|
Santosh K. Mishra |
Electronic Sturcture and Hyperfine Properties of Deoxy- and Oxy Hemoglobin |
State University of New York at Albany |
1986 |
|
Electronic Structures and Hyperfine Interactions of Muonium Centers in Semiconductors |
State University of New York at Albany |
1986 |
|
|
Hyperfine Interactions in Ionic Crystals |
State University of New York at Albany |
1987 |
|
|
Jitendra N. Roy |
Electronic Structure and Hyperfine and Magnetic Interactions in Biomolecules-Hemoglobin Derivatives and Cytrochromes |
State University of New York at Albany |
1987 |
|
Shashadhar M. Mohapatra |
Electronic Structures and Properties of Adsorbed Atoms at Semiconductor Surfaces and Muonium in Compounds |
State University of New York at Albany |
1988 |
|
Surya N. Panigrahy |
Relativistic Many-Body Theory of Hyperfine Interactions and Isotope Shifts in Noble Metal Atoms |
State University of New York at Albany |
1991 |
|
Randy W. Dougherty |
Hyperfine Interactions in Atomic and Ionic systems with Single Valence Electrons |
State University of New York at Albany |
1992 |
|
Shukri Bin Sulaiman |
First Principles Investigation of Electronic Structures and Hyperfine Properties of Semiconductors and HighTc Superconductors |
State University of New York at Albany |
1992 |
|
Dale W. Mitchell |
I. Effects of Perturbation on Ion Motion in Fourier Transform Ion Cyclotron Resonance Mass Spectrometry, II. First Principle Investigation of Hyperfine Properties in Zinc Chalcogenides and Spinels |
State University of New York at Albany |
1994 |
|
K. Ramani Lata |
First-Principles Unrestricted Hartree- Fock Calculations for the Electronic Structures and Hyperfine Properties of Different Biological and Aquoion Systems |
State University of New York at Albany |
1994 |
|
First-principles investigation of electronic structure and associated hyperfine properties of fluorine nuclei in molecular, elemental semiconductor and graphite systems |
State University of New York at Albany |
1995 |
|
|
Xing Yuan |
Relativistic many-body perturbation theory investigation of properties of atomic systems with single valence electron |
State University of New York at Albany |
1995 |
|
Theoretical Hartree-Fock investigation of the structure and associated hyperfine properties of hydrogenic impurities in fullerenes and alkali halides |
State University of New York at Albany |
1995 |
|
|
Theoretical investigation of the electronic structures and hyperfine properties of ionic solids including high Tc systems |
State University of New York at Albany |
1995 |
|
|
Investigation of hyperfine properties of alkali-like atoms and ions with first-principle incorporation of relativistic and many-body effects |
State University of New York at Albany |
1995 |
|
|
Theory of electronic structures and nuclear quadrupole interactions in molecular solids and semiconductor surfaces |
State University of New York at Albany |
1998 |
|
|
Gowri Gopalakrishnan |
Theoretical investigation of hyperfine fields in fluoromethanes and transition metal oxides |
State University of New York at Albany |
1998 |
|
Minakhi Pujari |
First-principles investigation of electronic structure and hyperfine properties of heme and nitrosyl-hemoglobin systems |
State University of New York at Albany |
1999 |
|
Junho Jeong |
First-principles study of electronic structures and associated properties of organic ferromagnets and muonated gallium nitride (Tentative Title) |
State University of New York at Albany |
2004 |
|
The Role of Impurities in Molecular Solids and Biological Materials. First-principles Study of: I. Helium in Solid Hydrogen as an Obstacle for Efficiency of Muon Catalyzed Fusion, and II. Muon and Muonium in Proteins and DNA as Probes for Electron Transport |
State University of New York at Albany |
2004 |
|
|
Thesis in Condensed Matter Physics (title to be decided), jointly with Professor Mengbing Huang |
State University of New York at Albany |
Expected 2009 |
|
|
Thesis in Nano-Biological Systems (title to be decided), jointly with Professor Mengbing Huang |
State University of New York at Albany |
Expected 2009 |