Quantum Theory, Reconsideration of Foundations 3: Växjö, Sweden, 6-11 June 2005
Guillaume Adenier, Theo M. Nieuwenhuizen
American Institute of Physics, Jan 1, 2006 - Computers - 458 pages
The editors (of V xj U. in Sweden and the Institute for Theoretical Physics in the Netherlands) present 45 papers and two poster presentations from a June 2005 international conference dedicated to the foundations of quantum mechanics and its applications to quantum information theory, quantum computing, and cryptography. Specific topics include ph
82 pages matching example in this book
Results 1-3 of 82
What people are saying - Write a review
We haven't found any reviews in the usual places.
Could We Now Convince Einstein?
A New Tool for Biological
Formal Framework and Selected Applications
40 other sections not shown
2006 American Institute Adenier algebra argument atom axioms Bell's Bell's inequality Bohm Bohmian mechanics Bohr Bohr's complementarity complete computational consider convex convex set correlations corresponding decoherence defined denote density matrix described detector discussed distribution dynamics Einstein electromagnetic electron energy ensemble entangled entropy EPR's equation equivalent example experiment experimental fluctuations frequency Gaussian given gravitational Hamiltonian Heisenberg Heisenberg group Hilbert space inequality interaction interference interpretation Khrennikov linear Lorentz mathematical measurement metric momentum motion nature Neumann Nieuwenhuizen nonlinear nonlocality observables operator orthogonal oscillator pair parameters particle phase space phenomena photon Phys polarization possible predictions principle probability density problem quantities quantization quantum mechanics quantum objects quantum teleportation quantum theory qubit question radiation random Reconsideration of Foundations relativity Schrodinger solution space-time statistical Stochastic Electrodynamics structure teleparallel teleparallel gravity teleportation theorem trajectories transformations variables wave function