Add to ORKGAn apparent paradox in classical statistical physics is the mechanism by which conservative, time-reversible microscopic dynamics, can give rise to seemingly dissipative behavior. In this paper we use system theoretic tools to show that dissipation can arise as an artifact of incomplete observations over a finite horizon. In addition, this approach allows us to obtain finite-time, low order, approximations of systems with moderate size and to establish how the approach to the thermodynamic limit depends on the different physical parameters
We study the effects of dissipative boundaries in many-body systems at continuous quantum transition...
While some of the deepest results in nature are those that give explicit bounds between important p...
In this paper, we take a control-theoretic approach to answering some standard questions in statisti...
We study a modified version of the ''AgBr'' Hamiltonian and analyze its weak-coupling, macroscopic l...
We develop a Hamiltonian theory of a time dispersive and dissipative inhomogeneous medium, as descri...
In this paper, we take a control-theoretic approach to answering some standard questions in statist...
We reconsider the reduction method introduced for Hamiltonian systems by Amann, Conley and Zehnder. ...
AbstractWe reconsider the reduction method introduced for Hamiltonian systems by Amann, Conley and Z...
In this paper, we re-visit Gibbs’ second (unresolved) paradox, namely the constancy of the finegrain...
We study the Coleman-Hepp or AgBr Hamiltonian, concentrating our attention on a weak-coupling, macro...
Abstract—In this paper, we take a control-theoretic approach to answering some standard questions in...
Abstract—In this paper, we take a control-theoretic approach to answering some standard questions in...
The conditions that yield deviations from a purely exponential behavior of a quantum mechanical syst...
We present a simple bound on the finite horizon L2 [0, TI-induced norm of a linear time-invariant (L...
In this paper, we re-visit Gibbs' second (unresolved) paradox, namely the constancy of the fine-grai...
We study the effects of dissipative boundaries in many-body systems at continuous quantum transition...
While some of the deepest results in nature are those that give explicit bounds between important p...
In this paper, we take a control-theoretic approach to answering some standard questions in statisti...
We study a modified version of the ''AgBr'' Hamiltonian and analyze its weak-coupling, macroscopic l...
We develop a Hamiltonian theory of a time dispersive and dissipative inhomogeneous medium, as descri...
In this paper, we take a control-theoretic approach to answering some standard questions in statist...
We reconsider the reduction method introduced for Hamiltonian systems by Amann, Conley and Zehnder. ...
AbstractWe reconsider the reduction method introduced for Hamiltonian systems by Amann, Conley and Z...
In this paper, we re-visit Gibbs’ second (unresolved) paradox, namely the constancy of the finegrain...
We study the Coleman-Hepp or AgBr Hamiltonian, concentrating our attention on a weak-coupling, macro...
Abstract—In this paper, we take a control-theoretic approach to answering some standard questions in...
Abstract—In this paper, we take a control-theoretic approach to answering some standard questions in...
The conditions that yield deviations from a purely exponential behavior of a quantum mechanical syst...
We present a simple bound on the finite horizon L2 [0, TI-induced norm of a linear time-invariant (L...
In this paper, we re-visit Gibbs' second (unresolved) paradox, namely the constancy of the fine-grai...
We study the effects of dissipative boundaries in many-body systems at continuous quantum transition...
While some of the deepest results in nature are those that give explicit bounds between important p...
In this paper, we take a control-theoretic approach to answering some standard questions in statisti...