N.M. Atakishiyev, S.M. Chumakov, A.L. Rivera y K.B. Wolf
... transformation, as follows directly from the phase volume conservation. In quantum dynamics, these moments are preserved by any linear canonical transformation but are changed by nonlinear transformations. For all the quasiclassical states described by Gaussian wave functions, these moments (in our ...
... transformation, as follows directly from the phase volume conservation. In quantum dynamics, these moments are preserved by any linear canonical transformation but are changed by nonlinear transformations. For all the quasiclassical states described by Gaussian wave functions, these moments (in our ...
Reductionism and Emergence: Implications for the Science/theology
... the current moment. This is hard to see in our everyday lives, since we’re nowhere close to knowing everything about the universe at any moment, nor will we ever be - but the equations don’t lie. As Einstein put it, ‘It appears therefore more natural to think of physical reality as a four dimensiona ...
... the current moment. This is hard to see in our everyday lives, since we’re nowhere close to knowing everything about the universe at any moment, nor will we ever be - but the equations don’t lie. As Einstein put it, ‘It appears therefore more natural to think of physical reality as a four dimensiona ...
Effective Field Theory of Dissipative Fluids
... 3. New constraints (nonlinear Onsager relations) Should be distinguished from an action which just reproduces standard eoms (which may not capture fluctuations correctly) ...
... 3. New constraints (nonlinear Onsager relations) Should be distinguished from an action which just reproduces standard eoms (which may not capture fluctuations correctly) ...
Quantum Computation - School of Computing Science
... It is not possible to define an operation that reliably makes a duplicate of an unknown quantum state. (Contrast this with the classical situation, where the existence of uniform copying procedures is one of the main advantages of digital information.) It is possible to transfer an unknown quantum s ...
... It is not possible to define an operation that reliably makes a duplicate of an unknown quantum state. (Contrast this with the classical situation, where the existence of uniform copying procedures is one of the main advantages of digital information.) It is possible to transfer an unknown quantum s ...
- New England Complex Systems Institute
... of q > 1 could be applied. [One has to be careful here with quantitative interpretations because these values were derived within the context of standard (linear) quantum mechanics with “quantum chaos”; however, the crossover into classical chaos is similar, and it seems that both systems exhibit lo ...
... of q > 1 could be applied. [One has to be careful here with quantitative interpretations because these values were derived within the context of standard (linear) quantum mechanics with “quantum chaos”; however, the crossover into classical chaos is similar, and it seems that both systems exhibit lo ...
The 2005 Nobel Prize in Physics: Optics
... Returning to radiation, after Dirac the theory of quantum electrodynamics - QED - was further developed by many leading physicists of that time including Heisenberg, Pauli, Peierls and Landau. However it was now found that when one went beyond the lowest level of approximation it was plagued by seve ...
... Returning to radiation, after Dirac the theory of quantum electrodynamics - QED - was further developed by many leading physicists of that time including Heisenberg, Pauli, Peierls and Landau. However it was now found that when one went beyond the lowest level of approximation it was plagued by seve ...
Web FTP - Visicom Scientific Software
... we are able to both perceive and subsequently alter our own causality or even our own evolution within this reality has been a long running open question. Referred to as “The Hard Problem”. There have been many theoretical interpretations on the nature of causal ...
... we are able to both perceive and subsequently alter our own causality or even our own evolution within this reality has been a long running open question. Referred to as “The Hard Problem”. There have been many theoretical interpretations on the nature of causal ...
Document
... Why does the phase matter? (cont.) Using qubit A, the output is [(α+β)/√2]|0> + [(α-β)/√2]|1>, but using qubit B, the output is [(α-β)/√2]|0> + [(α+β)/√2]|1>. The only difference in the output is the sign of β in the coefficients. As a special illustrative case, set α = β = 1/√2. In this case, the ...
... Why does the phase matter? (cont.) Using qubit A, the output is [(α+β)/√2]|0> + [(α-β)/√2]|1>, but using qubit B, the output is [(α-β)/√2]|0> + [(α+β)/√2]|1>. The only difference in the output is the sign of β in the coefficients. As a special illustrative case, set α = β = 1/√2. In this case, the ...
