Advances in Quantum Chemistry

Properties of confined hydrogen and helium atoms (S. Patil and Y.P. Varshni)<br>Exact relations for confined one-electron systems (K.D. Sen, V.I. Pupyshev, and H.E. Montgomery Jr.)<br>The hydrogen atom confined in semi-infinite spaces limited by conoidal boundaries (E. Ley-Koo)<br>The hydrogen and helium atoms confined in spherical boxes (N. Aquino)<br>Exact solutions for confined model systems using Kummer functions (B.L. Burrows and M. Cohen)<br>Perturbation theory for a hydrogen-like atom confined within an impenetrable spherical cavity (C. Laughlin)<br>Comparative study between the Hartree-Fock and Kohn-Sham models for the lowest singlet and triplet states of the confined helium atom (J. Garza and R. Vargas)<br>Thomas-Fermi-Dirac-Weizsäcker density functional formalism applied to the study of many-electron atom confinement by open and closed boundaries (S.A. Cruz)<br>Confined atoms treated as open quantum systems (R.F.W. Bader)<br>Modeling pressure effects on the electronic properties of Ca, Sr and Ba by the confined atom model (D. Guerra, R. Vargas, P. Fuentealba, and J. Garza)<br>Photoionization of atoms encaged in spherical fullerenes (V.K. Dolmatov)<br>DFT study of molecules confined inside fullerene and fullerene-like cages (O.P. Charkin, N.M. Klimenko, and D.O. Charkin)<br>Spectroscopy of confined atomic systems: effect of plasma (A.N. Sil, S. Canuto and P.K. Mukherjee)<br>The energy level structure of low-dimensional multi-electron quantum dots (T. Sako, J. Paldus and G.H.F. Diercksen)<br>Engineering quantum confined silicon nanostructures: ab-initio study of the structural, electronic and optical properties (E. Degoli and S. Ossicini)