Simons Foundation chevron-down--small Our CentersCenter for Computational AstrophysicsCenter for Computational BiologyCenter for Computational MathematicsCenter for Computational NeuroscienceCenter for Computational Quantum PhysicsScientific Computing CoreInitiative for Computational CatalysisOur WorkResearchPublicationsSoftwareMachine LearningNewsEventsFlatiron Wide Autumn MeetingFlatiron Institute Seminar SeriesML@FI Seminar SeriesCareersAboutMissionPeopleMedia RelationsCode of ConductContactSummer at Simons Research All Centers CCA CCB CCM CCN CCQ SCC Center for Computational Quantum Physics Dynamics and Control At the Center for Computational Quantum Physics, we are developing the conceptual basis, theoretical formalism and computational tools needed to use the quantum nature of light to understand and control quantum phenomena in complex systems. CCQ Quantum Materials What arrangement produces a material with an optimal thermoelectric figure of merit, or a combination of magnetic and ferroelectric properties, or a high superconducting critical temperature? CCQ Software Libraries A major effort of the CCQ is the development and support of high quality open-source software for quantum many-body physics research. Making software which is reliable, efficient, and productive accelerates discovery and fosters scientific consensus and reproducibility. CCQ Theory and Methods The quantum many-body problem is one of the hard problems of complexity theory: A direct solution requires computational resources that grow exponentially with the size of the problem to be solved. CCQ
Dynamics and Control At the Center for Computational Quantum Physics, we are developing the conceptual basis, theoretical formalism and computational tools needed to use the quantum nature of light to understand and control quantum phenomena in complex systems. CCQ
Quantum Materials What arrangement produces a material with an optimal thermoelectric figure of merit, or a combination of magnetic and ferroelectric properties, or a high superconducting critical temperature? CCQ
Software Libraries A major effort of the CCQ is the development and support of high quality open-source software for quantum many-body physics research. Making software which is reliable, efficient, and productive accelerates discovery and fosters scientific consensus and reproducibility. CCQ
Theory and Methods The quantum many-body problem is one of the hard problems of complexity theory: A direct solution requires computational resources that grow exponentially with the size of the problem to be solved. CCQ
