Add to ORKGWe show that a special entropic quantifier, called the statistical complexity, becomes maximal at the transition between super-Poisson and sub-Poisson regimes. This acquires important connotations given the fact that these regimes are usually associated with, respectively, classical and quantum processes.Instituto de Física La Plat
Using as information-quantifiers the entropy and the statistical complexity, we analyze the rich, co...
We investigate the classical limit of a type of semiclassical evolution, the pertinent system repres...
We investigate the classical limit of a type of semiclassical evolution, the pertinent system repres...
We show that a special entropic quantifier, called the statistical complexity, becomes maximal at th...
We show that a special entropic quantifier, called the statistical complexity, becomes maximal at th...
We show that a special entropic quantifier, called the statistical complexity, becomes maximal at th...
We show that a special entropic quantifier, called the statistical complexity, becomes maximal at th...
We investigate the classical limit of the dynamics of a semiclassical system that represents the int...
We investigate the classical limit of the dynamics of a semiclassical system that represents the int...
We investigate the classical limit of the dynamics of a semiclassical system that represents the int...
International audienceThese lecture notes provide an elementary introduction, within the framework o...
We investigate the classical limit of the semiclassical evolution with reference to a well-known mod...
We investigate the classical limit of the semiclassical evolution with reference to a well-known mod...
We investigate the classical limit of a type of semiclassical evolution, the pertinent system repres...
We investigate the classical limit of a type of semiclassical evolution, the pertinent system repres...
Using as information-quantifiers the entropy and the statistical complexity, we analyze the rich, co...
We investigate the classical limit of a type of semiclassical evolution, the pertinent system repres...
We investigate the classical limit of a type of semiclassical evolution, the pertinent system repres...
We show that a special entropic quantifier, called the statistical complexity, becomes maximal at th...
We show that a special entropic quantifier, called the statistical complexity, becomes maximal at th...
We show that a special entropic quantifier, called the statistical complexity, becomes maximal at th...
We show that a special entropic quantifier, called the statistical complexity, becomes maximal at th...
We investigate the classical limit of the dynamics of a semiclassical system that represents the int...
We investigate the classical limit of the dynamics of a semiclassical system that represents the int...
We investigate the classical limit of the dynamics of a semiclassical system that represents the int...
International audienceThese lecture notes provide an elementary introduction, within the framework o...
We investigate the classical limit of the semiclassical evolution with reference to a well-known mod...
We investigate the classical limit of the semiclassical evolution with reference to a well-known mod...
We investigate the classical limit of a type of semiclassical evolution, the pertinent system repres...
We investigate the classical limit of a type of semiclassical evolution, the pertinent system repres...
Using as information-quantifiers the entropy and the statistical complexity, we analyze the rich, co...
We investigate the classical limit of a type of semiclassical evolution, the pertinent system repres...
We investigate the classical limit of a type of semiclassical evolution, the pertinent system repres...