Emergence of order in quantum extensions of the classical quasispecies evolution

Autor(en)

Heide Narnhofer, Harald Posch, Walter Thirring

Abstrakt

We study evolution equations which model selection and mutation within the framework of quantum mechanics. The main question is to what extent order is achieved for an ensemble of typical systems. As an indicator for mixing or purification, a quadratic entropy is used which assumes values between zero for pure states and (d-1)/d for fully mixed states. Here, d is the dimension. Whereas the classical counterpart, the quasispecies dynamics, has previously been found to be predominantly mixing, the quantum quasispecies (QS) evolution surprisingly is found to be strictly purifying for all dimensions. This is also typically true for an alternative formulation (AQS) of this quantum mechanical flow. We compare this also to analogous results for the Lindblad evolution. Although the latter may be viewed as a simple linear superposition of the purifying QS and AQS evolutions, it is found to be predominantly mixing. The reason for this behavior may be explained by the fact that the two subprocesses by themselves converge to different pure states, such that the combined process is mixing. These results also apply to high-dimensional systems.

Organisation(en)

Computergestützte Physik und Physik der Weichen Materie, Mathematische Physik

Journal

Physical Review E

Band

76

Anzahl der Seiten

11

ISSN

1539-3755

DOI

https://doi.org/10.1103/PhysRevE.76.041133

Publikationsdatum

2007

Peer-reviewed

Ja

ÖFOS 2012

103019 Mathematische Physik

Link zum Portal

https://ucrisportal.univie.ac.at/de/publications/37fe7178-b283-4449-856b-2f2b46cfd53a