Is Quantum Indeterminism Relevant to Free Will?
... unpredictable. To put the matter in more general terms: Either one takes the quantum probabilities to be the complete probabilities, and then one runs into the randomness objection. Or one goes for interactionism and assumes a regular influence of intentions, and then one is committed to the consequ ...
... unpredictable. To put the matter in more general terms: Either one takes the quantum probabilities to be the complete probabilities, and then one runs into the randomness objection. Or one goes for interactionism and assumes a regular influence of intentions, and then one is committed to the consequ ...
Electronic Structure of Strained GaSb/GaAs Quantum Dot
... caused by their staggered (type-II) band alignment. North et al. calculated the electronic structure of self-assembled GaSb/GaAs dots by using the simple one-band model (effective mass model). Therefore it is interesting to carry out the detailed calculations using a more accurate method, in particu ...
... caused by their staggered (type-II) band alignment. North et al. calculated the electronic structure of self-assembled GaSb/GaAs dots by using the simple one-band model (effective mass model). Therefore it is interesting to carry out the detailed calculations using a more accurate method, in particu ...
Thermal effects on sudden changes and freezing
... the sudden change of the QD to different initial conditions. In this context, the present work shed more light on this important subject. In particular, for the system under study, we find that the atomic density matrix preserves the initial BD form only for a short time under the action of the heat ...
... the sudden change of the QD to different initial conditions. In this context, the present work shed more light on this important subject. In particular, for the system under study, we find that the atomic density matrix preserves the initial BD form only for a short time under the action of the heat ...
Indistinguishable photons from a single-photon device
... same intensity, these sources rarely emit two or more photons in the same pulse. Numerous applications for single-photon sources have been proposed in the field of quantum information, but most—including linear-optical quantum computation12—also require consecutive photons to have identical wave pac ...
... same intensity, these sources rarely emit two or more photons in the same pulse. Numerous applications for single-photon sources have been proposed in the field of quantum information, but most—including linear-optical quantum computation12—also require consecutive photons to have identical wave pac ...
PPT - Fernando Brandao
... Consists of extracting EPR pairs from bipartite entangled states by Local Operations and Classical Communication (LOCC) Central task in quantum information processing for distributing entanglement over large distances (e.g. entanglement repeater) ...
... Consists of extracting EPR pairs from bipartite entangled states by Local Operations and Classical Communication (LOCC) Central task in quantum information processing for distributing entanglement over large distances (e.g. entanglement repeater) ...
a simple explanation of search technique in quantum framework
... This parallelism provides the distinction between classical and quantum algorithmic strategies. For an example the objective of a classical algorithm is to reduce the amplitude of non target states, where as a quantum search algorithm tries to amplify the amplitude of the target states. Here the ter ...
... This parallelism provides the distinction between classical and quantum algorithmic strategies. For an example the objective of a classical algorithm is to reduce the amplitude of non target states, where as a quantum search algorithm tries to amplify the amplitude of the target states. Here the ter ...
Quantum Spacetimes and Finite N Effects in 4D Super Yang
... the operators which look like tr(ΦN+1 ) when the gauge group is U (N ). If the generators of the Lie algebra are T a , the chiral primary operator is written as tr(Φa T a )N+1 = Φa1 · · · ΦaN +1 tr(T a1 · · · T aN +1 ). But tr(T a1 · · · T aN +1 ) is just the CN+1 Casimir operator of U (N ) and we k ...
... the operators which look like tr(ΦN+1 ) when the gauge group is U (N ). If the generators of the Lie algebra are T a , the chiral primary operator is written as tr(Φa T a )N+1 = Φa1 · · · ΦaN +1 tr(T a1 · · · T aN +1 ). But tr(T a1 · · · T aN +1 ) is just the CN+1 Casimir operator of U (N ) and we k ...
