Theory of quantum systems

Diffusion resonances in action space for an atom optics kicked rotor with decoherence

Physical Review E American Physical Society (APS) 65:3 (2002) 035201

Authors:

AJ Daley, AS Parkins, R Leonhardt, SM Tan

Simulation of a Chemical Autonomous Agent

Zeitschrift für Physikalische Chemie De Gruyter 216:1 (2002) 41

Authors:

Andrew J Daley, Andrew Girvin, Stuart A Kauffman, Peter R Wills, Daniel Yamins

Simulation of a chemical autonomous agent

Zeitschrift fur Physikalische Chemie 216:1 (2002) 41-49

Authors:

AJ Daley, A Girvin, SA Kauffman, PR Wills, D Yamins

Abstract:

A chemical autonomous agent is defined as a reproducing molecular system that carries out a thermodynamic work cycle, reminiscent of the earliest prebiotic replicators that harnessed free energy. The efficiency with which free energy is utilized to promote replication is a measure of the selective fitness of such a system. Simulations of the operation of a typical autonomous agent over a wide range of possible parameter settings reveals a fitness landscape with a well-defined maximum and a variety of features that are amenable to interpretation in terms of evolutionary concepts.

Diffusion Resonances in Action Space for an Atom Optics Kicked Rotor with Decoherence

(2001)

Authors:

AJ Daley, AS Parkins, R Leonhardt, SM Tan