Quantum Connections
... sition of multiple states can exist only in isolation. Any attempt to Three leading modular quantum strategies, using different prematurely observe or measure it will force a particle to collapse types of qubits, have emerged over the past decade. The three into a single state—to choose one possibil ...
... sition of multiple states can exist only in isolation. Any attempt to Three leading modular quantum strategies, using different prematurely observe or measure it will force a particle to collapse types of qubits, have emerged over the past decade. The three into a single state—to choose one possibil ...
A Chemical Approach to Molecular Spin Qubits: Decoherence and
... Section a: Extended Synopsis of the scientific proposal (max. 5 pages) All electronics “runs on quantum mechanics”, from semiconductors and lasers to giant-magnetoresistancebased hard drives and memories. A number of spectacular technologies even depend very explicitly of quantum effects, from medic ...
... Section a: Extended Synopsis of the scientific proposal (max. 5 pages) All electronics “runs on quantum mechanics”, from semiconductors and lasers to giant-magnetoresistancebased hard drives and memories. A number of spectacular technologies even depend very explicitly of quantum effects, from medic ...
The fractional quantum Hall effect in wide quantum wells
... freedom. The second subband hosts another two-dimensional electron system that may interact with the one in the first subband and charge may be transferred from one to the other. Here, we have investigated the fractional quantum Hall states and in particular the 5/2-state under these conditions in a ...
... freedom. The second subband hosts another two-dimensional electron system that may interact with the one in the first subband and charge may be transferred from one to the other. Here, we have investigated the fractional quantum Hall states and in particular the 5/2-state under these conditions in a ...
... with optimal solution times increasing faster than this (e.g., as an exponential function of the input size for sufficiently large values) are considered to be intractable. The technological potential for quantum computing was first realized in the formulation by Shor (1994) of a polynomial-time qua ...
Introductory Quantum Optics Section 1. Single photon physics
... And this is the same as the right hand side of Eq. (18). The main application of this equation is that it allows for the calculation of expectation values without having to know all the eigenstates |λi i and eigenvalues λi of an observable A. 1.3 The basic linear optics elements To familiarise ourse ...
... And this is the same as the right hand side of Eq. (18). The main application of this equation is that it allows for the calculation of expectation values without having to know all the eigenstates |λi i and eigenvalues λi of an observable A. 1.3 The basic linear optics elements To familiarise ourse ...
Authors:Qing Jie, Rongwei Hu, Emil Bozin, A
... Abstract: We investigate Josephson currents in mesoscopic rings with a weak link which are in or near a topological superconducting phase. As a paradigmatic example, we consider the Kitaev model of a spinless p-wave superconductor in one dimension, emphasizing how this model emerges from more realis ...
... Abstract: We investigate Josephson currents in mesoscopic rings with a weak link which are in or near a topological superconducting phase. As a paradigmatic example, we consider the Kitaev model of a spinless p-wave superconductor in one dimension, emphasizing how this model emerges from more realis ...
Properties of electrons - VGTU Elektronikos fakultetas
... From classical mechanics we know that six parameters define the state of a particle: three co-ordinates and three projections of momentum. If we know the momentum of a microparticle, we can find the length of the wave that corresponds to this microparticle. It means that a monochromatic harmonic wav ...
... From classical mechanics we know that six parameters define the state of a particle: three co-ordinates and three projections of momentum. If we know the momentum of a microparticle, we can find the length of the wave that corresponds to this microparticle. It means that a monochromatic harmonic wav ...
Matematiska institutionen Department of Mathematics Covering the sphere with noncontextuality inequalities
... Another interesting theorem used for quantum-mechanical contextuality is the Kochen-Specker theorem, which can be seen as a complement to Bell’s theorem. This is since they describe the same concept, but in this case for spin 1 particles instead of spin 1/2 particles. In this sense Bell’s theorem is ...
... Another interesting theorem used for quantum-mechanical contextuality is the Kochen-Specker theorem, which can be seen as a complement to Bell’s theorem. This is since they describe the same concept, but in this case for spin 1 particles instead of spin 1/2 particles. In this sense Bell’s theorem is ...