Recent studies using the quantum information theoretic approach to thermodynamics show
that the presence of coherence in quantum systems generates corrections to classical …

We develop a matrix perturbation method for the Lindblad master equation. The first‐and
second‐order corrections are obtained and the method is generalized for higher orders. The …

AC Stark shifts have an impact on the dynamics of atoms interacting with a near-resonant
quantized single-mode cavity field, which is relevant to a single atom micromaser. In this …

We analyze the Markovian dynamics of a quantum system involving the interaction of two
quantized fields at finite temperature decay. Utilizing superoperator techniques and applying …

The time-dependent Schrödinger equation is solved for a linear potential using operational
methods; in particular, an extension of the Baker-Campbell-Hausdorff formula is exposed …

We study the resonance fluorescence in the Jaynes–Cummings model when nearby levels
are taking into account. We show that the Stark shift produced by such levels generates a …

The analytical solution of a three-level atom interacting with four systems of N-two-level
atoms is studied. The atomic inversion and the correlation function as applications of this …

In this work, the Ginzburg-Landau theory is represented on a symplectic manifold with a
phase space content. The order parameter is defined by a quasi-probability amplitude …

Supersymmetric quantum mechanics is a powerful tool for generating exactly solvable
potentials departing from a given initial one. In this article the first-and second-order …

In this study, we provide an exact solution to the Lindblad master equation that describes the
interaction of two quantized electromagnetic fields in a decaying cavity, coupled to a thermal …