On the basis of the maximum-entropy principle, the usual definition of temperature is extended to quantal systems. Entropy, specific heats, and state equations are evaluated for bounded (i.e. , spinorial systems) and unbounded operators (i.e. , electromagnetic field systems).
Level schemes for~~R b and 9~Sr are proposed based on the study of the P decay of S~Kr and 9~Rb, respectively. The samples mexe obtained using on-line mass-separation techniques applied to~3 5U fission products. y-, P-, and x-ray singles spectra, as mell as (y, y} and (P, y} coincidence spectra, mere taken with Ge(Li} and Si(I i} detectors. Internal-conversion coefficients mere determined for several transitions and the half-lives for the first two levels in Gab and 9~Sr mere measured. In viem of the observed parity change between lorn-lying excited states and the ground state in 9~3b the possibility of deformations to explain this level structure is discussed.
We extend a nonlinear dynamical equation, proposed a few years ago
by S. Weinberg to test a possible breakdown in the linearity of
Quantum Mechanics, by introducing antihermitian terms (linear and
nonlinear) allowing irreversible evolution. Applying the new equation
to a two-level atom, we verify that for a particular situation the
antihermitian terms lead exactly to the nonlinear Bloch equations
obtained in the neoclassical theory of spontaneous emission proposed
by Stroud and Jaynes, which do not exhibit pure spontaneous emission.
Lifting that particularization we gain additional antihermitian terms
in the nonlinear Bloch equation that take care of the pure spontaneous
emission problem. In view of this new terms we discuss whether they
are meaningful as a “correction” to linear
Quantum Mechanics.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.