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- Riley, Merle Eugene (1968) Energy
transfer in molecular collisions; 10.7907/76fq-q631
- Schatz, George Chappell (1976) The
Quantum Dynamics of Atom Plus Diatom Chemical Reactions; 10.7907/2N85-G728
- Bowman, Joel Mark (1975) Theoretical
studies of electronically adiabatic and non-adiabatic chemical
reaction; 10.7907/6F8N-ZE84
- Winniczek, Jaroslaw W. (1985) Anisotropic
Interaction Potentials between Helium and Linear Molecules from Crossed
Beam Experiments; 10.7907/5nvw-ym37
- Coggiola, Michael John (1975) Experimental
Investigations of Molecule-Molecule and Electron-Molecule
Scattering; 10.7907/r4tc-py47
- Walzl, Kerry Neil (1987) Variable-Angle
Electron Energy-Loss Spectroscopy of Polyatomic Molecular Systems;
10.7907/pzpj-5b50
- Celii, Francis Gabriel (1986) I.
IR Photodissociation Spectroscopy of Large van der Waals Clusters. II.
UV Laser-Induced Photochemistry of Fe(CO)₅ on Single Crystal
Surfaces; 10.7907/nz14-wz74
- Rodgers, Mary Theresa (1992) A
theoretical and experimental investigation of the H_3 system; 10.7907/ey99-a620
- Frueholz, Robert Paul (1978) Electronic
spectroscopy of various molecular systems by low-energy, variable-angle,
electron impact; 10.7907/xedy-ks74
- Truhlar, Donald G. (1970) Quantum
mechanical calculations for rearrangement collisions of electrons,
atoms, and molecules; 10.7907/488E-2Y91
- Boland, John James (1985) Experimental
and Theoretical Developments in Extended X-Ray Absorption Fine Structure
(EXAFS) Spectroscopy; 10.7907/YGM3-F114
- Xavier, Isaac de Melo, Jr. (1989) Electron
Energy-Loss Spectroscopy Study of Polyatomic Molecular Systems Under
Pyrolytic Conditions; 10.7907/4wx9-6j66
- Giorgi, Maria Rebecca (1992) Experimental
and theoretical studies of the hydrogen exchange reaction; 10.7907/m4a8-mm29
- Wu, Yi-Shuen Mark (1992) Quantum
three-body reaction dynamics including the geometric phase effect.;
10.7907/PPME-QC88
- Mintz, Donald Mills (1976) Variable
Angle Photoelectron Spectroscopy; 10.7907/n30x-qw67
- Cartwright, David Chapman (1968) The
Exchange Excitation of Helium and the Hydrogen Molecule by Low Energy
Electrons; 10.7907/51DM-6585
- Peng, Zhengwei (1991) Quantum
study of the H3 system; 10.7907/6h1q-ve21
- Rice, James Kinsey (1969) Low-energy,
high-resolution, variable angle, electron impact spectroscopy; 10.7907/36HJ-RS93
- Abrol, Ravinder (2003) Theory
of Electronically Nonadiabatic Quantum Reaction Dynamics; 10.7907/6NQY-2K60
- Wei, Pax Samuel Pin (1968) Determination
of electronic energy levels of molecules by 90° low energy electron
scattering; 10.7907/T6F4-S527
- Parr, Christopher Alan (1969) Classical
Dynamics of Triatomic Systems. I. Dynamics of Energized Harmonic
Molecules. II. Dynamics of Energized Anharmonic Molecules. III. The H +
DX Reactions; 10.7907/NDDH-1D34
- Betts, Jeanette Asay (1971) Reaction
of Monoenergetic Deuterium Atoms with Hydrogen and Monoenergetic
Hydrogen Atoms with Per-Deutero Methane; 10.7907/8E5X-D717
- Cuccaro, Steven Andrew (1991) Ab
initio three-dimensional atom-diatom reaction cross sections using
hyperspherical coordinates and variational surface functions; 10.7907/n1ec-7f47
- Parker, Garth Rockwood, Jr. (1988) Determination
of Nascent H₂ Rovibrational Distributions by Laser Induced Fluorescence:
Applications to Formaldehyde Photodissociation and Hydrogen Exchange
Reactions; 10.7907/ht1t-df04
- Hipes, Paul Gregory (1988) Three
Dimensional Atom-Diatom Reactive Scattering Calculations Using
Symmetrized Hyperspherical Coordinates; 10.7907/2S8G-PJ87
- Reiner, Robert Henry (1976) Determination
of multiquantum vibrational transition moments in hydrogen iodide and
their significance in its vibrational photochemistry.; 10.7907/ay4m-0474
- Dwyer, John Patrick (1976) A
theoretical study of collinear scattering : I. A new method to calculate
reactive and dissociative cross sections of atom plus diatom systems.
II. A reexamination of the collinear inelastic collision of two
diatomics; 10.7907/E5AG-JH44
- Stroud, Carrie Kim (1994) Collinear
Reaction Dynamics and Hydrodynamic Analysis of the Vibrationally Excited
Cl + HCl → ClH + Cl, Cl + DCl → ClD + Cl and Cl + TCl → ClT + Cl
Reactions on Two Leps Surfaces; 10.7907/aqts-fq51