Quantum potential and symmetries in extended phase space.
Nasiri, Sadollah (2006)
SIGMA. Symmetry, Integrability and Geometry: Methods and Applications [electronic only]
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Displaying similar documents to “Supersymmetry and Ghosts in Quantum Mechanics”
Quantum potential and symmetries in extended phase space.
Quantum computing in decoherence-free subspace constructed by triangulation.
Bi, Qiao, Guo, Liu, Ruda, H.E. (2010)
Advances in Mathematical Physics
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A generalized coherent state approach of the quantum dynamics for suitable time-dependent hamiltonians
Monique Combescure (1992)
Journées équations aux dérivées partielles
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Constructing quantum dissipations and their reversible states from classical interacting spin systems
D. Goderis, C. Maes (1991)
Annales de l'I.H.P. Physique théorique
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Symmetry transformation in extended phase space: the harmonic oscillator in the Husimi representation.
Bahrami, Samira, Nasiri, Sadolah (2008)
SIGMA. Symmetry, Integrability and Geometry: Methods and Applications [electronic only]
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An introduction to quantum annealing
Diego de Falco, Dario Tamascelli (2011)
RAIRO - Theoretical Informatics and Applications - Informatique Théorique et Applications
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Quantum annealing, or quantum stochastic optimization, is a classical randomized algorithm which provides good heuristics for the solution of hard optimization problems. The algorithm, suggested by the behaviour of quantum systems, is an example of proficuous cross contamination between classical and quantum computer science. In this survey paper we illustrate how hard combinatorial problems are tackled by quantum computation and present some examples of the heuristics provided by quantum...
On quantum vector fields in general relativistic quantum mechanics.
Janys̆ka, Joseph, Modugno, Marco (1997)
General Mathematics
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When is a quantum space not a group?
Piotr Mikołaj Sołtan (2010)
Banach Center Publications
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We give a survey of techniques from quantum group theory which can be used to show that some quantum spaces (objects of the category dual to the category of C*-algebras) do not admit any quantum group structure. We also provide a number of examples which include some very well known quantum spaces. Our tools include several purely quantum group theoretical results as well as study of existence of characters and traces on C*-algebras describing the considered quantum spaces as well as...
An introduction to quantum annealing
Diego de Falco, Dario Tamascelli (2011)
RAIRO - Theoretical Informatics and Applications
Similarity:
Quantum annealing, or quantum stochastic optimization, is a classical randomized algorithm which provides good heuristics for the solution of hard optimization problems. The algorithm, suggested by the behaviour of quantum systems, is an example of proficuous cross contamination between classical and quantum computer science. In this survey paper we illustrate how hard combinatorial problems are tackled by quantum computation and present some examples of the heuristics provided by quantum...
Positive energy quantization of linear dynamics
Jan Dereziński, Christian Gérard (2010)
Banach Center Publications
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The abstract mathematical structure behind the positive energy quantization of linear classical systems is described. It is separated into three stages: the description of a classical system, the algebraic quantization and the Hilbert space quantization. Four kinds of systems are distinguished: neutral bosonic, neutral bosonic, charged bosonic and charged fermionic. The formalism that is described follows closely the usual constructions employed in quantum physics to introduce noninteracting...
Quantum fluctuations of elementary excitations in discrete media.
Haken, Hermann (2004)
Discrete Dynamics in Nature and Society
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