Few-Body Problems in Particle, Nuclear, Atomic, and Molecular Physics

part of the one-gluon-exchange interaction leads to momentum-space wave functions that fall off algebraically A set of exactly computable orthonormal basis functions that are useful in computations involving constituent quarks is presented. rather than like Gaussians. This algebraic falloff is also

A brief review of recent progress in the field of double beta decay is presented. Different aspects from particle, nuclear and atomic physics of both two-neutrino (2νββ) and neutrinoless (0νββ) modes of the double β decay are discussed. It is argued that the Rparity violating supersymmetry ( R p SUS

A major feature of nuclear physics is that the number of degrees of freedom is both too large to accommodate exactlysolvable problems in practice and too small to justify purely statistical limits. Experimental evidence in nuclear physics actually shows that the nuclear dynamics sometimes reduces to

Correlated many-particle dynamics in Coulombic systems, which is one of the unsolved fundamental problems in AMO-physics, can now be experimentally approached with so far unprecedented completeness and precision. The recent development of the COLTRIMS technique (COLd Target Recoil Ion Momentum Spect