Add to ORKGThe minimal memory required to model a given stochastic process - known as the statistical complexity - is a widely adopted quantifier of structure in complexity science. Here, we ask if quantum mechanics can fundamentally change the qualitative behaviour of this measure. We study this question in the context of the classical Ising spin chain. In this system, the statistical complexity is known to grow monotonically with temperature. We evaluate the spin chain's quantum mechanical statistical complexity by explicitly constructing its provably simplest quantum model, and demonstrate that this measure exhibits drastically different behaviour: it rises to a maximum at some finite temperature then tends back towards zero for higher temperatures...
We present exact results for two complementary measures of spatial structure generated by 1D spin sy...
The present study highlights some of the complexities observed in the dynamical properties of one-di...
We present a comprehensive comparison of spin and energy dynamics in quantum and classical spin mode...
While we have intuitive notions of structure and complexity, the formalization of this intuition is ...
Classical stochastic processes can be generated by quantum simulators instead of the more standard c...
We introduce a quantum version for the statistical complexity measure, in the context of quantum inf...
Classical stochastic processes can be generated by quantum simulators instead of the more s...
We provide a detailed comparison between the dynamics of high-temperature spatiotemporal correlation...
This dissertation investigates the theory of quantum stochastic processes and its applications in qu...
Models can be simple for different reasons: because they yield a simple and computationally efficien...
We provide a detailed comparison between the dynamics of high-temperature spatiotemporal correlation...
Mathematical models are an essential component of quantitative science. They generate predictions ab...
The ability of quantum systems to host exponentially complex dynamics has the potential to revolutio...
Computer simulation of observable phenomena is an indispensable tool for engineering new technology,...
Abstract How rapidly can a many-body quantum system generate randomness? Using path integral methods...
We present exact results for two complementary measures of spatial structure generated by 1D spin sy...
The present study highlights some of the complexities observed in the dynamical properties of one-di...
We present a comprehensive comparison of spin and energy dynamics in quantum and classical spin mode...
While we have intuitive notions of structure and complexity, the formalization of this intuition is ...
Classical stochastic processes can be generated by quantum simulators instead of the more standard c...
We introduce a quantum version for the statistical complexity measure, in the context of quantum inf...
Classical stochastic processes can be generated by quantum simulators instead of the more s...
We provide a detailed comparison between the dynamics of high-temperature spatiotemporal correlation...
This dissertation investigates the theory of quantum stochastic processes and its applications in qu...
Models can be simple for different reasons: because they yield a simple and computationally efficien...
We provide a detailed comparison between the dynamics of high-temperature spatiotemporal correlation...
Mathematical models are an essential component of quantitative science. They generate predictions ab...
The ability of quantum systems to host exponentially complex dynamics has the potential to revolutio...
Computer simulation of observable phenomena is an indispensable tool for engineering new technology,...
Abstract How rapidly can a many-body quantum system generate randomness? Using path integral methods...
We present exact results for two complementary measures of spatial structure generated by 1D spin sy...
The present study highlights some of the complexities observed in the dynamical properties of one-di...
We present a comprehensive comparison of spin and energy dynamics in quantum and classical spin mode...