Quantum-like model of unconscious–conscious dynamics
... first attempt to apply the theory of quantum apparatuses and instruments outside of physics, to cognition and psychology. Special quantum structures were elaborated in order to mathematically represent most general measurement schemes and are applicable both in classical and quantum physics and, pra ...
... first attempt to apply the theory of quantum apparatuses and instruments outside of physics, to cognition and psychology. Special quantum structures were elaborated in order to mathematically represent most general measurement schemes and are applicable both in classical and quantum physics and, pra ...
PDF
... loading protocol in which time slots of entangled photons are transmitted over optical fibers in the 1.55 µm lowloss window and gated into their respective quantum memories. We expect that the memory loading protocol can be run at cycling rates as high as R = 500 kHz, so that we can attempt to load a ...
... loading protocol in which time slots of entangled photons are transmitted over optical fibers in the 1.55 µm lowloss window and gated into their respective quantum memories. We expect that the memory loading protocol can be run at cycling rates as high as R = 500 kHz, so that we can attempt to load a ...
Mutually unbiased bases, orthogonal Latin squares, and hidden
... bases, find their lower number, and disprove the existence of certain forms of the bases in dimensions different than power of a prime. Using the Latin squares, we construct hidden-variable models which efficiently simulate results of complementary quantum measurements. DOI: 10.1103/PhysRevA.79.0121 ...
... bases, find their lower number, and disprove the existence of certain forms of the bases in dimensions different than power of a prime. Using the Latin squares, we construct hidden-variable models which efficiently simulate results of complementary quantum measurements. DOI: 10.1103/PhysRevA.79.0121 ...
Realism and Objectivism in Quantum Mechanics Vassilios
... distinguished from their like. The foregoing concise analysis delimits actually the fact, upon which the whole classical physics is founded, that any compound physical system of a classical universe can be conceived of as consisting of separable, individual parts interacting by means of forces, whic ...
... distinguished from their like. The foregoing concise analysis delimits actually the fact, upon which the whole classical physics is founded, that any compound physical system of a classical universe can be conceived of as consisting of separable, individual parts interacting by means of forces, whic ...
Chapter 4 Quantum Entanglement
... the state, instead we merely generate a random bit. This situation contrasts ...
... the state, instead we merely generate a random bit. This situation contrasts ...
The Transactional Interpretation of Quantum Mechanics http://www
... collapsers of wave functions. This leads to problems, e.g., in quantum cosmology where no observers are present. • In the transactional interpretation, transactions involving an observer are the same as any other transactions. • Thus, the observer-centric aspects of the Copenhagen interpretation are ...
... collapsers of wave functions. This leads to problems, e.g., in quantum cosmology where no observers are present. • In the transactional interpretation, transactions involving an observer are the same as any other transactions. • Thus, the observer-centric aspects of the Copenhagen interpretation are ...
Testing Wavefunction Collapse
... consideration given to either its conceptual clarity and the insight it provides into the novelty of quantum mechanics, or to the possibility of subjecting it to an empirical test. Bohm [3] took the view that for the present it is not possible to distinguish the various interpretations because they ...
... consideration given to either its conceptual clarity and the insight it provides into the novelty of quantum mechanics, or to the possibility of subjecting it to an empirical test. Bohm [3] took the view that for the present it is not possible to distinguish the various interpretations because they ...
Quantum Symmetric States - UCLA Department of Mathematics
... The tail σ-algebra is the intersection of the σ-algebras generated by {xN , xN +1 , . . .} as N goes to ∞. Thus, the expectation E can be seen as an integral (w.r.t. a probability measure on the tail algebra) — that is, as a sort of convex combination — of expectations with respect to which the rand ...
... The tail σ-algebra is the intersection of the σ-algebras generated by {xN , xN +1 , . . .} as N goes to ∞. Thus, the expectation E can be seen as an integral (w.r.t. a probability measure on the tail algebra) — that is, as a sort of convex combination — of expectations with respect to which the rand ...
Testing Heisenberg`s Uncertainty Principle with
... According to classical mechanics, if the direction of the angular momentum was not quantized, one would observe a small distribution of particles coming out of the SG apparatus (Stern-Gerlach apparatus). Instead, the apparatus split the silver beam into two different components, showing that particl ...
... According to classical mechanics, if the direction of the angular momentum was not quantized, one would observe a small distribution of particles coming out of the SG apparatus (Stern-Gerlach apparatus). Instead, the apparatus split the silver beam into two different components, showing that particl ...
Curriculum Vitae Irinel Chiorescu
... My research interests lie in the broad area of quantum effects at nanoscopic scale. The main research direction I developed at FSU is focusing on quantum coherence and it involves studies of spin dynamics in diluted spin systems and molecular magnets. The research program benefited from an Alfred P. ...
... My research interests lie in the broad area of quantum effects at nanoscopic scale. The main research direction I developed at FSU is focusing on quantum coherence and it involves studies of spin dynamics in diluted spin systems and molecular magnets. The research program benefited from an Alfred P. ...
on line
... and have corresponding algebras C[G] , as well as versions k[G] defined over general fields with the same relations. Meanwhile, working over C , a “real form” means the additional structure of a compatible complex-linear involution making the coordinate algebra into a ∗ -algebra. In this case one ca ...
... and have corresponding algebras C[G] , as well as versions k[G] defined over general fields with the same relations. Meanwhile, working over C , a “real form” means the additional structure of a compatible complex-linear involution making the coordinate algebra into a ∗ -algebra. In this case one ca ...
Hirota dynamics of quantum integrability
... • No single analyticity friendly gauge for T’s of right, left and upper bands. We parameterize T’s of 3 bands in different, analyticity friendly gauges, also respecting their reality and certain symmetries. • Quantum analogue of classical ...
... • No single analyticity friendly gauge for T’s of right, left and upper bands. We parameterize T’s of 3 bands in different, analyticity friendly gauges, also respecting their reality and certain symmetries. • Quantum analogue of classical ...
PDF only - at www.arxiv.org.
... In our second example, we add a "which-slit" detector to the first example. As described mathematically in (Schlosshauer 2007, pp. 63-65) and (Hobson 2013a, Section IV B), this changes everything because the detector entangles with each electron as it comes through the slits ...
... In our second example, we add a "which-slit" detector to the first example. As described mathematically in (Schlosshauer 2007, pp. 63-65) and (Hobson 2013a, Section IV B), this changes everything because the detector entangles with each electron as it comes through the slits ...
Quantum computing
Quantum computing studies theoretical computation systems (quantum computers) that make direct use of quantum-mechanical phenomena, such as superposition and entanglement, to perform operations on data. Quantum computers are different from digital computers based on transistors. Whereas digital computers require data to be encoded into binary digits (bits), each of which is always in one of two definite states (0 or 1), quantum computation uses quantum bits (qubits), which can be in superpositions of states. A quantum Turing machine is a theoretical model of such a computer, and is also known as the universal quantum computer. Quantum computers share theoretical similarities with non-deterministic and probabilistic computers. The field of quantum computing was initiated by the work of Yuri Manin in 1980, Richard Feynman in 1982, and David Deutsch in 1985. A quantum computer with spins as quantum bits was also formulated for use as a quantum space–time in 1968.As of 2015, the development of actual quantum computers is still in its infancy, but experiments have been carried out in which quantum computational operations were executed on a very small number of quantum bits. Both practical and theoretical research continues, and many national governments and military agencies are funding quantum computing research in an effort to develop quantum computers for civilian, business, trade, and national security purposes, such as cryptanalysis.Large-scale quantum computers will be able to solve certain problems much more quickly than any classical computers that use even the best currently known algorithms, like integer factorization using Shor's algorithm or the simulation of quantum many-body systems. There exist quantum algorithms, such as Simon's algorithm, that run faster than any possible probabilistic classical algorithm.Given sufficient computational resources, however, a classical computer could be made to simulate any quantum algorithm, as quantum computation does not violate the Church–Turing thesis.