|CCL 16.04.12 Pauli2016 Workshop, University of Oxford, United Kingdom|
From: chemistry-request at ccl.net
To: chemistry-request at ccl.net
Date: Wed Feb 3 18:24:51 2016
Subject: 16.04.12 Pauli2016 Workshop, University of Oxford, United Kingdom
International Workshop on Reduced Density Matrices in Quantum Physics and Role of Fermionic Exchange Symmetry University of Oxford (Oxford), United Kingdom, 12-15 April 2016 organized by Christian Schilling and Vlatko Vedral The interdisciplinary workshop brings together experts in quantum science, as e.g. quantum information theory, quantum chemistry, solid state physics and mathematical physics. The aim is to explore from a conceptual viewpoint the influence of the fermionic exchange symmetry and its consequences for the reduced 1-and 2-fermion picture. In particular, a better understanding should be developed of how the conflict of energy minimization and antisymmetry of the N-fermion quantum state leads to simplified descriptions of fermionic ground states. The emphasis lies on the four subjects: 1)particle exchange symmetry 2)reduced density matrices 3)generalized Pauli constraints 4)degeneracy pressure and numerical methodsNOTE THAT E-MAIL ADDRESSES HAVE BEEN MODIFIED!!!
All @ signs were changed to :_: to fight spam. Before you send e-mail, you need to change :_: to @
For example: change joe:_:big123comp.com to email@example.com
Please let colleagues know about conference listingts at Computational Chemistry List Conference Page at http://www.ccl.net/chemistry/a/conferences/.
Please help: If you find this conference list useful but you noticed some conference missing, please consider including it here by using the Conference Submission Page. It is free but your support is welcome. You will help others!!!
|Modified: Wed Feb 3 23:24:51 2016 GMT|
|Page accessed 1669 times since Wed Feb 3 23:17:02 2016 GMT|
Please help maintain CCL: If you found that your conference is listed here, please consider supporting CCL as a Supporting Member or use other Paid Services of CCL to ensure the continuation of this useful service. We cannot do it without your help.