Add to ORKGWigner separated the possible types of symmetries in quantum theory into those symmetries that are unitary and those that are antiunitary. Unitary symmetries have been well studied whereas antiunitary symmetries and the physical implications associated with time-reversal symmetry breaking have had little influence on quantum information science. Here we develop a quantum circuits version of time-reversal symmetry theory, classifying time-symmetric and time-asymmetric Hamiltonians and circuits in terms of their underlying network elements and geometric structures. These results reveal that many of the typical quantum circuit networks found across the field of quantum information science exhibit time-asymmetry. We then experimentally implemen...
There is a stark tension among different formulations of quantum theory in that some are fundamental...
The resource theory of asymmetry is a framework for classifying and quantifying the symmetry-breakin...
This dissertation is about the sense in which the laws of quantum theory distinguish between the pas...
Given its importance to many other areas of physics, from condensed-matter physics to thermodynamics...
Quantum mechanics still provides new unexpected effects when considering the transport of energy and...
Unitary gates are an interesting resource for quantum communication in part because they are always ...
Quantum mechanics still provides new unexpected effects when considering the transport of energy and...
Unitary gates are interesting resources for quantum communication in part because they are always in...
This is the second of two reports concerning the issue of time directionality in fundamental theoret...
This paper considers the possibility that nonrelativistic quantum mechanics tells us that Nature car...
A cornerstone of quantum mechanics is the characterization of symmetries provided by Wigner's theore...
In the presence of time-reversal symmetry, quantum interference gives strong corrections to the elec...
The symmetries that govern the laws of nature can be spontaneously broken, enabling the occurrence o...
It is well known that unitary symmetries can be “gauged,” i.e., defined to act in a local way, which...
The utilization of time-reversal symmetry in designing and implementing (quantum) optical experiment...
There is a stark tension among different formulations of quantum theory in that some are fundamental...
The resource theory of asymmetry is a framework for classifying and quantifying the symmetry-breakin...
This dissertation is about the sense in which the laws of quantum theory distinguish between the pas...
Given its importance to many other areas of physics, from condensed-matter physics to thermodynamics...
Quantum mechanics still provides new unexpected effects when considering the transport of energy and...
Unitary gates are an interesting resource for quantum communication in part because they are always ...
Quantum mechanics still provides new unexpected effects when considering the transport of energy and...
Unitary gates are interesting resources for quantum communication in part because they are always in...
This is the second of two reports concerning the issue of time directionality in fundamental theoret...
This paper considers the possibility that nonrelativistic quantum mechanics tells us that Nature car...
A cornerstone of quantum mechanics is the characterization of symmetries provided by Wigner's theore...
In the presence of time-reversal symmetry, quantum interference gives strong corrections to the elec...
The symmetries that govern the laws of nature can be spontaneously broken, enabling the occurrence o...
It is well known that unitary symmetries can be “gauged,” i.e., defined to act in a local way, which...
The utilization of time-reversal symmetry in designing and implementing (quantum) optical experiment...
There is a stark tension among different formulations of quantum theory in that some are fundamental...
The resource theory of asymmetry is a framework for classifying and quantifying the symmetry-breakin...
This dissertation is about the sense in which the laws of quantum theory distinguish between the pas...