The reactions of O(1D) with propane and water monomers and clusters
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[1] R. Naaman,et al. Reactant rotational energy effect on energy distribution in products. The role of the electronic angular momentum , 1993 .
[2] V. Vaida,et al. The reactions of O(1D) with CH4 and C3H8 monomers and clusters , 1993 .
[3] Miller Re,et al. Intermolecular V-V energy transfer in the photodissociation of weakly bound complexes: A new experimental approach. , 1993 .
[4] R. Naaman,et al. Effect of a single solvent atom on bimolecular reactions : collisions of O(3P) with hydrocarbon-argon clusters , 1993 .
[5] S. Lifson,et al. The reaction of O(3P) with cyclohexane clusters , 1993 .
[6] J. Visticot,et al. Picosecond dynamics observed on weakly attractive potential energy surfaces. Dissociation dynamics and vibrational recurrences of the mercury-argon van der Waals complex , 1992 .
[7] E. Bernstein. Chemical reactions in clusters , 1992 .
[8] D. King,et al. Fragment state correlations in the dissociation of NO⋅HF(v=1) , 1992 .
[9] Deborah G. Sauder,et al. Nascent product states in the photoinitiated reaction of O3 and H2O , 1992 .
[10] D. Donaldson,et al. Cluster‐induced photochemistry of CH3I at 248 nm , 1992 .
[11] R. Naaman,et al. Energy distribution in HCl(v=1) following the vibrational predissociation of C2H2–HCl complex , 1992 .
[12] J. Wiesenfeld,et al. Nascent product population distribution in the reaction 16O(1D2)+H218O→16OH+18OH , 1992 .
[13] C. W. Gillies,et al. A microwave spectral and ab initio investigation of O3H2O , 1991 .
[14] J. Syage,et al. Picosecond mass‐selective measurements of phenol‐(NH3)n acid–base chemistry in clusters , 1990 .
[15] J. J. Breen,et al. Real-time probing of reactions in clusters , 1990 .
[16] K. Jucks,et al. Photofragment angular distributions for HF dimer: Scalar J–J correlations in state‐to‐state photodissociation , 1989 .
[17] W. Breckenridge. Chemical reactions and energy transfer processes of electronically excited Group IIB metal atoms: full collisions and half-collisions , 1989 .
[18] V. Vaida,et al. Spectroscopic probe of intramolecular predissociation dynamics in clusters , 1989 .
[19] J. Stephenson,et al. Time‐ and state‐resolved measurements of nitric oxide dimer infrared photodissociation , 1988 .
[20] O. Cheshnovsky,et al. Proton transfer in neutral gas‐phase clusters: α‐Naphthol⋅(NH3)n , 1988 .
[21] V. Vaida,et al. Multiphoton ionization study of intra- and intermolecular effects on the photodissociation of methyl iodide , 1988 .
[22] G. T. Fraser,et al. The microwave spectrum of formamide–water and formamide–methanol complexes , 1988 .
[23] B. Soep,et al. Photochemistry in excited states of van der Waals complexes , 1987 .
[24] G. Jursich,et al. Dynamics of the reaction O(1D2)+H2→OH(X 2Π,v‘=2,3)+H: Full characterization of product energetics , 1987 .
[25] D. Worsnop,et al. Molecular beam reactive scattering. Exchange of van der Waals bonds in xenon + argon (Ar2) collisions , 1981 .
[26] A. Luntz. Chemical dynamics of the reactions of O(1D2) with saturated hydrocarbons , 1980 .
[27] P. Andresen,et al. The chemical dynamics of the reactions of O(3P) with saturated hydrocarbons. I. Experiment , 1980 .
[28] D. Crosley,et al. Calculated rotational transition probabilities for the A−X system of OH , 1980 .
[29] W. Miller,et al. Theoretical treatment of quenching in O(1D) + N2 collisions , 1975 .
[30] J. Tully. Collision complex model for spin forbidden reactions: Quenching of O(1D) by N2 , 1974 .
[31] W. Demore,et al. Reactions of atomic oxygen (1D) with methane and ethane , 1973 .
[32] H. M. Crosswhite,et al. The ultraviolet bands of OH Fundamental data , 1962 .
[33] E. L. Hill,et al. On the Quantum Mechanics of the Rotational Distortion of Multiplets in Molecular Spectra , 1928 .