Spin is among the frontrunners for the physical realization of quantum bits (qubits) and spin-based devices are at the center of an intense research effort for the creation of quantum protocols. The design of spin systems able to retain their quantum properties up to ambient temperature is one of the fields’ primary goals and represents a sine-qua-non condition for the realization of quantum devices based on magnetic units.
Research Lab of Eviden. Funded in 2016. Research activities in :
* quantum software
* quantum/HPC hybridization
* quantum algorithms
* large scale simulation of quantum algorithms
* modeling and simulation of noise in quantum processors
* quantum algorithms for dense matter physics
Progress in quantum technologies relies on understanding how quantum phenomena govern the dynamics of quantum systems far from equilibrium and on identifying the available quantum resources. This knowledge then allows us to manipulate the systems in order to obtain the desired outcome. Our group seeks to:
We are a theoretical group based in Koç University interested in quantum information theory and several aspects of quantum enabled and quantum enhanced technologies. Our group carries on theoretical research work on open quantum systems, quantum thermodynamics, quantum metrology, quantum computation.
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