quantum control

The Quantum Dynamics and Control group at DPhyMS, University of Luxembourg, investigates dynamical properties of open quantum systems and develops protocols for their control. We combine analytical and numerical tools, mainly from quantum optics and stochastic analysis, to characterize processes such as decoherence, entanglement, and excitation transfer. The systems of interests are diverse and range from single toy models to chaotic systems and natural molecular aggregates.

Application deadline: 

Sunday, February 28, 2021

A post doc position is available in the lab of Dr. Louis Bouchard at UCLA to work on magnetic resonance (ESR, NMR) projects related to quantum science. Our group has pioneered the development of magnetic resonance techniques to probe condensed matter phenomena in topological insulators, crystalline insulators, Dirac semimetals, topological superconductors, etc.  Some of these materials are now being developed for topological quantum computing.  In recent years we have also had interest in gas phase diffusion phenomena and associated non-Markovian effects.

Application deadline: 

Wednesday, September 4, 2019

Post Doctoral position, Quantum Machine Learning (QML): A post doc position is available to develop novel hybrid quantum - deep learning algorithms for next-generation quantum computing. The hybrid algorithms, which combine the strengths of AI and quantum algorithms, will be used to solve problems of quantum control and of mathematical physics. Emphasis will be placed on the explainability of the designed AI (XAI) without loss of performance. Qualifications: Ph.D.

Application deadline: 

Sunday, September 1, 2019

The Institute for Theoretical Physics at the University of Ulm invites applications for PhD and postdoctoral positions in theoretical quantum physics.

Several openings will be available in the recently awarded 5 year Reinhart Koselleck Project of the German Research Council to Prof Martin Plenio for which we are seeking applicants with an interest in

- signal processing methods applied to nanoscale NMR and quantum sensing,
- quantum sensing with colour centers in diamond, and
- DNP based on diamond quantum technologies.

Application deadline: 

Tuesday, January 15, 2019

The Institute for Theoretical Physics at the University of Ulm, with Professors Martin B Plenio and Susana F Huelga, invites applications for PhD and postdoctoral positions in theoretical quantum physics

The focus of our research is on

QuThees is a theory group operating at University of Catania. The main topic is Quantum Physics with Condensed Matter Systems. We have a long standing experience in superconductivity and graphene. Topics of our interest are quantum hardware, open quantum systems and control, quantum phase transitions, atomtronics.

Submission deadline: 

Saturday, May 7, 2016

Registration deadline: 

Saturday, May 7, 2016

Registration deadline: 

Tuesday, May 31, 2016

The 2016 International Summer School on Quantum Information Computing & Control (QuICC) will be held between the 29th August and 2nd September at Lancaster University. This event is organised by students from the doctoral training centres at Imperial College London. It aims to bring together experimental and theoretical physicists studying quantum phenomena in a variety of systems.

The development of technologies for the 21st century, coupled with fundamental scientific inquiry, is driving new theoretical and experimental research on control in quantum systems. Experience has shown that systematic use of quantum control theory leads to significant improvements in technologies ranging from magnetic resonance to prototype quantum computers. Compelling case studies of quantum control have been developed in wide-ranging fields such as chemistry, metrology, optical networking and computer science.

Since its beginnings one of the main purposes of thermodynamics has been the optimization of devices. Commonly, processes are characterized as optimal if they are maximally fast or maximally efficient. Recent years have seen the development of various theoretical tools which tremendously broadened our understanding of such optimal processes, in quantum mechanics and in classical physics. A particular highlight are so-called shortcuts to adiabaticity -- finite time processes that mimic adiabatic dynamics without the requirement of slow driving.

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