QB abstracts compiled 160613
... Conway and Kochen’s free will theorem states that if experimenters have free will in the sense that their choices are not a function of the past, so must some elementary particles. The free will theorem goes beyond Bell’s theorem as it connects the two fundamental resources behind quantum technol ...
... Conway and Kochen’s free will theorem states that if experimenters have free will in the sense that their choices are not a function of the past, so must some elementary particles. The free will theorem goes beyond Bell’s theorem as it connects the two fundamental resources behind quantum technol ...
Octonionic Dirac Equation
... step further and using octonions as underlying numerical field. In this work, we overcome the problems due to the nonassociativity of the octonionic algebra by introducing leftright barred operators (which will be sometimes called barred octonions). Such operators complete the mathematical material ...
... step further and using octonions as underlying numerical field. In this work, we overcome the problems due to the nonassociativity of the octonionic algebra by introducing leftright barred operators (which will be sometimes called barred octonions). Such operators complete the mathematical material ...
Quantum Nash Equilibria and Quantum Computing
... to test Bell’s theorem, two entangled quanta are sent to different players (who may receive and measure them at different times) who then use their measurements to coordinate game behavior. (Huberman and Hogg, 2004). ...
... to test Bell’s theorem, two entangled quanta are sent to different players (who may receive and measure them at different times) who then use their measurements to coordinate game behavior. (Huberman and Hogg, 2004). ...
Greco1 - INFN - Torino Personal pages
... All these results are always valid and do not rely on the relaxation time approx. more generally: ...
... All these results are always valid and do not rely on the relaxation time approx. more generally: ...
PPT
... With one slit closed, the image formed is simply a single-slit pattern. We “know” (i.e., we have constrained) which way the particle went. With both slits open, a particle interferes with itself to produce the observed two-slit interference pattern. This amazing interference effect reflects, in a fu ...
... With one slit closed, the image formed is simply a single-slit pattern. We “know” (i.e., we have constrained) which way the particle went. With both slits open, a particle interferes with itself to produce the observed two-slit interference pattern. This amazing interference effect reflects, in a fu ...
Lecture 19: The Hydrogen Atom
... • The solution gives a set of wave functions, and the energy of each wave function. • The wave functions (and energies) are distinct and countable (although in principle there are an infinite number of wavefunctions). • The wavefunctions are now called orbitals as they describe the probability of th ...
... • The solution gives a set of wave functions, and the energy of each wave function. • The wave functions (and energies) are distinct and countable (although in principle there are an infinite number of wavefunctions). • The wavefunctions are now called orbitals as they describe the probability of th ...
Elements of Quantum Mechanics and the H Atom
... So far we have discussed probability amplitudes only as a function of r, the particle’s position in space. For many problems in AMO physics such a description of quantum systems by stationary states is fully sufficient. However, often time dependence is equally important. In respect of photons we kn ...
... So far we have discussed probability amplitudes only as a function of r, the particle’s position in space. For many problems in AMO physics such a description of quantum systems by stationary states is fully sufficient. However, often time dependence is equally important. In respect of photons we kn ...
Coulomb oscillations as a remedy for the helium atom
... to account for the total (instead of only orbital) angular momentum. The wave nature—expressed in Schrödinger’s formulation of quantum mechanics by the wavefunction ψ—is necessary to account for the particles’ spatial (probability) distribution, ψψ ∗ = |ψ|2 . Quantum statistics becomes relevant for ...
... to account for the total (instead of only orbital) angular momentum. The wave nature—expressed in Schrödinger’s formulation of quantum mechanics by the wavefunction ψ—is necessary to account for the particles’ spatial (probability) distribution, ψψ ∗ = |ψ|2 . Quantum statistics becomes relevant for ...
Long-Range Correlations in the Nonequilibrium Quantum Relaxation of a Spin... V 85, N 15
... time scales one observes quasi-long-range order. This does not depend on any external parameter like the transverse field. This type of algebraic correlation needs not to be triggered by some tuning parameter and is therefore reminiscent of phenomena in self-organized criticality [12]. The scenario ...
... time scales one observes quasi-long-range order. This does not depend on any external parameter like the transverse field. This type of algebraic correlation needs not to be triggered by some tuning parameter and is therefore reminiscent of phenomena in self-organized criticality [12]. The scenario ...
Quantum Interaction Approach in Cognition, Artificial Intelligence
... equation to describe the dynamics of the decision process [27]. The proposed model is a part of a general operational approach of comparing classical stochastic models with quantum dynamic models, and deciding by comparison with experimental data which of them has most predictive power [28]. In 2008 ...
... equation to describe the dynamics of the decision process [27]. The proposed model is a part of a general operational approach of comparing classical stochastic models with quantum dynamic models, and deciding by comparison with experimental data which of them has most predictive power [28]. In 2008 ...
Atomic orbitals and their representation: Can 3-D
... Chemistry teaching. They had argued that students should be given an active role in using these kinds of tools [13]. In particular, German researchers at the University of Munich [14] presented a new introductory course on Quantum Mechanics in which conceptual issues are taught with abundant graphic ...
... Chemistry teaching. They had argued that students should be given an active role in using these kinds of tools [13]. In particular, German researchers at the University of Munich [14] presented a new introductory course on Quantum Mechanics in which conceptual issues are taught with abundant graphic ...
Momentum Transfer to a Free Floating Double Slit
... We restrict our modeling to molecules initially in the rotational ground state of HDþ which describes a coherent superposition of all possible orientations in three dimensions; no classical analog exists for such a state. Nevertheless, prominent interference effects can still be observed if specific ...
... We restrict our modeling to molecules initially in the rotational ground state of HDþ which describes a coherent superposition of all possible orientations in three dimensions; no classical analog exists for such a state. Nevertheless, prominent interference effects can still be observed if specific ...
Active teleportation of a quantum bit
... of quantum optics by adoption of the concept of ‘‘entanglement of one photon with the vacuum’’ by which each quantum superposition state, i.e., a qubit was physically implemented by a two dimensional subspace of Fock states of a mode of the electromagnetic field, specifically the space spanned by th ...
... of quantum optics by adoption of the concept of ‘‘entanglement of one photon with the vacuum’’ by which each quantum superposition state, i.e., a qubit was physically implemented by a two dimensional subspace of Fock states of a mode of the electromagnetic field, specifically the space spanned by th ...
