Endothermic reactions of Ni+ with H2, HD and D2

The rate wfficients k for the nearly thermoneulral atom abstracbon reactions of N+ ions \nth H,. HD and D, have befn dct-cd as a ~uncrion of ion-molecule cenue-or-mars energy. KE, in a SLFDT apparatus. over tic range of KE, Zrom thermal energy at 300 K to = 0 5 eV. From Arrhenius-type plots OF In k

Rate coefficients, in units of 10-~0 cm 3 molecule-~ s-~, for the O(~D) reactions with H2, D 2 and HD at 298 K were determined to be 1.2 \_\_\_ 0.1, 1.1 + 0.1, and 1.2 + 0.1, respectively. The H atom yield in the O(~ D) + HD reaction, relative to that in the O(ID) + H 2 reaction, was measured to be

Calculation of Rayleigh and Raman polarizabilities within the electric dipole approximation has been done using exact electronic wavefunctions. The results provide the most accurate data available for future comparison with experiment. Although Raman scattering is one of the most popular fields in

The reaction D + H2 + HD + H has been investigated in two molecular beam scattering experiments. Angular and time-of-flight distributions have been measured for the initial vibrational ground state ( u = 0) at a most probable collision energy of E,, = 1.5 eV and for the first vibrational excited sta