| 1 |
Application of a general classical variational theory to the F+H-2 -> FH+1H reaction
Rutenburg I, Koeppl GW
Journal of Chemical Physics, 110(8), 3842, 1999 |
| 2 |
New potential energy function for four-atom reactions. Application to OH+H-2
de Aspuru GO, Clary DC
Journal of Physical Chemistry A, 102(47), 9631, 1998 |
| 3 |
Vibrationally and Rotationally Resolved Angular-Distributions for F+h-2-)HF(Nu’,J’)+h Reactive Scattering
Dharmasena G, Phillips TR, Shokhirev KN, Parker GA, Keil M
Journal of Chemical Physics, 106(23), 9950, 1997 |
| 4 |
Integral and Differential State-to-State Cross-Sections for the Reactions F+d-2 (V(I)=o,J(I))-)DF(V(F),J(F))+d - A Comparison Between 3-Dimensional Quantum-Mechanical and Experimental Results
Baer M, Faubel M, Martinezhaya B, Rusin LY, Tappe U, Toennies JP, Stark K, Werner HJ
Journal of Chemical Physics, 104(7), 2743, 1996 |
| 5 |
The F+hd-)DF(HF)+h(D) Reaction Revisited - Quasi-Classical Trajectory Study on an Ab-Initio Potential-Energy Surface and Comparison with Molecular-Beam Experiments
Aoiz FJ, Banares L, Herrero VJ, Rabanos VS, Stark K, Werner HJ
Journal of Chemical Physics, 102(23), 9248, 1995 |
| 6 |
A Wave-Packet - Propagation Study of Inelastic and Reactive F+d-2 Scattering
Billing GD, Rusin LY, Sevryuk MB
Journal of Chemical Physics, 103(7), 2482, 1995 |
| 7 |
Theoretical-Study of the Effect of Reagent Rotation on the Reaction of F+h-2(Nu=0,J)
Song JB, Gislason EA
Journal of Chemical Physics, 103(20), 8884, 1995 |
| 8 |
Product-State-Resolved Study of the O-+d-2 Reaction - Anomalous Vibrational-State Distributions at Low Collision Energies
Carpenter MA, Zanni MT, Farrar JM
Journal of Physical Chemistry, 99(5), 1380, 1995 |
| 9 |
Cross-Sections and Rate Constants for the F+x(2)(V=0,J)-)Xf+x (X=h,D) Reactions - A 3-Dimensional Quantum-Mechanical Calculation
Rosenman E, Hochmankowal S, Persky A, Baer M
Journal of Physical Chemistry, 99(45), 16523, 1995 |
| 10 |
High-Resolution Crossed Molecular-Beam Investigation of the Absolute Cross-Sections and Product Rotational States for the Reaction F+d-2, (V(I)=0 J(I)=0,1)-)DF(V(F)J(F))+d
Faubel M, Rusin L, Schlemmer S, Sondermann F, Tappe U, Toennies JP
Journal of Chemical Physics, 101(3), 2106, 1994 |
