Description
This series consists of weekly discussion sessions on foundations of quantum theory and quantum information theory. The sessions start with an informal exposition of an interesting topic, research result or important question in the field. Everyone is strongly encouraged to participate with questions and comments.
Displaying 85  96 of 428
Format results


The Markov gap for geometric reflected entropy
Massachusetts Institute of Technology (MIT) 
Topological aspects of quantum cellular automata in one dimension
Max Planck Institute of Quantum Optics 
Provably efficient machine learning for quantum manybody problems
California Institute of Technology (Caltech) 
Topological Order, Quantum Codes and Quantum Computation on Fractal Geometries
IBM (United States) 

Oscillatortooscillator codes do not have a threshold
LudwigMaximiliansUniversitiät München (LMU) 
Timeefficient learning of quantum Hamiltonians from hightemperature Gibbs states
Massachusetts Institute of Technology (MIT)  Department of Physics 
Why supervised learning with quantum circuits reduces to kernel methods
University of KwaZuluNatal 
The power of random quantum circuits
University of Chicago 

Faulttolerant qubit from a constant number of components
Alphabet (United States)