Submitted by
thaug on Tue, 13/08/2024 - 10:02.
Dates:
Monday, November 18, 2024 to Wednesday, November 20, 2024
Registration deadline:
Tuesday, October 15, 2024
We are proud to announce the first many-body quantum magic (MBQM2024) workshop (https://mbqm.tii.ae/).
The workshop will take place 18.11.2024 to 20.11.2024 in Abu Dhabi, UAE.
Submitted by
mtomza on Fri, 13/01/2023 - 13:33.
Dates:
Tuesday, September 5, 2023 to Friday, September 8, 2023
Workshop on Ultracold Molecules will bring together international experts working on ultracold molecules, including their formation, manipulation, trapping, and laser cooling, as well as their application in quantum physics, cold chemistry, and precision measurements. It will be a satellite event to BEC 2023 Conference.
Dates:
Wednesday, July 1, 2020 to Friday, July 3, 2020
The workshop will gather young researchers working in quantum mechanics and its applications. PhD students and PostDocs will be given the opportunity to present their research activity and interact with their colleagues, share motivations, techniques and perspectives, in a friendly and informal environment.
Topics include: quantum information, entanglement, open quantum systems, quantum foundations, many-body physics, quantum thermodynamics, equilibrium & non-equilibrium physics, mathematical methods for quantum mechanics.
Submitted by
Benkj on Tue, 28/07/2015 - 17:15.
Submission deadline:
Monday, September 14, 2015
Registration deadline:
Monday, September 14, 2015
Recent developments in quantum technology, both in theory and experiments, have opened new perspectives for exploring equilibrium and nonequilibrium properties of strongly correlated many-body systems. In recent years the focus have shifted from traditional entropic approaches to the study of more complex measures of quantum correlations such as entanglement spectrum, negativity, mutual information and etc.
Submitted by
Sinayskiy on Thu, 04/06/2015 - 12:34.
In recent years, there has been much progress in realizing systems with many degrees of freedom, and in which matter can be strongly coupled to light. This has been achieved in several experimental setups: ultracold atoms in optical lattices, Bose-Einstein condensates (BEC), semiconductor quantum wells, arrays of microcavities or trapped ions, and optomechanical systems. Such systems share certain important properties. First, they can be driven far out of equilibrium by applying coherent electromagnetic fields.
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