quantum information processing
Submitted by
jneer on Thu, 19/01/2017 - 10:27.
Do not miss out this year’s Central European Workshop on Quantum Optics!
It will take place 26-30 June 2017 at the Department of Physics, Technical University of Denmark, in the beautiful surroundings of Lyngby (near Copenhagen). Some information about the event can be found at the address www.cewqo2017.dk . The conference is preceded by a PhD summer school in optical quantum technology.
Submitted by
EAAL on Wed, 19/10/2016 - 12:58.
QIP Limit
Quantum Information Processing with severely Limited memory and communication
Positions available:
1 PhD student position is currently available in this project.
Project scope:
Study of quantum information processing in the case when communication and memory are limited to just a few qubits.
We are interested in doing this mainly in the context of the three following fields: Foundations, Quantum Information, and Communication Complexity.
Dear Colleagues,
The preliminary programme for the Quantum Machine Learning Workshop 18-22 July 2016 at the Palm Dune Beach Lodge in South Africa is now online: http://www.quantummachinelearning.org/programme.html. We allocated plenty of time for talks and breaks in order to facilitate a focussed and intimate discussion. The talks start on Monday afternoon and end on Friday midday to allow for convenient travel arrangements.
The keynote speakers are (in alphabetical order):
Submitted by
Bvrellaku on Thu, 19/03/2015 - 11:42.
Submission deadline:
Wednesday, March 25, 2015
Registration deadline:
Wednesday, March 25, 2015
Oxford Instruments and IOP invites you to join an informative webinar on one-dimensional quantum wire: physics and applications at ultra low temperatures, to be held on thursday, 26th March at 15:00 GMT (16:00 CET, 10:00 EST), presented by two speakers:
Submitted by
Hendrai on Thu, 04/12/2014 - 20:46.
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.
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