Effects of disorder on the correlation energy of rings of hydrogen atoms

Reported are self-consistent field calculations on disordered rings of hydrogen atoms and studies of the spatial nature of the resulting localized eigenstates as a function of degree of disorder. This model represents the simplest hamiltonian having realistic electron nucleus and electron-electron i

An upper bbund of 6 X 10" cm3/mole s on the rate constant for the reaction. of atomic oxygen with vibrntional-I$ excited Yz has been deduced from laboiatory'observations and from detailed computer &ulations. From this result it can be shown that no more than 30% of the vibrational energy of Hz is e

First-order three-nnd fox-body contributions to the interxtion enerB of 3 2nd 4 hydrogen atoms in their repulsive shtes of hi&est multiplicity btve been eekulated. In the case of He the multibody expansion of the interection eneiw converges slower for a square thzn for a tetrahedral configuration of

G2 ab initio calculations on all ABX three-membered rings ## Ž . TMRs that can be derived from cyclopropane by systematic substitution of the -CH groups by -NH or -O groups have been performed. Our results show 2 that the decrease in the A-B bond length as the electronegativity of X increases is

We discuss the influence of atom-atom correlations on the collective feedback of atoms trapped in an 1D optical lattice. Analytically deriving the dynamics of these correlations we consider a series of feedback steps and analyze the average energy change as a measure of the feedback efficiency. It i