UNRAVELING OPEN QUANTUM SYSTEMS: CLASSICAL
... Quantum Stochastic Flows and Semigroups extend classical Stochastic Analysis beyond commutativity. This extension is not only an abstract mathematical construction but it is deeply inspired from the theory of Open Quantum Systems in Physics. As a result, subtle questions about time scales and renorm ...
... Quantum Stochastic Flows and Semigroups extend classical Stochastic Analysis beyond commutativity. This extension is not only an abstract mathematical construction but it is deeply inspired from the theory of Open Quantum Systems in Physics. As a result, subtle questions about time scales and renorm ...
Primer on topological insulators
... occupied band is called valence band, while the lowest lying empty band goes by the name valence band. From our discussion above, it should be evident that these two bands play a dominant role in the physics of an insulating material, i.e. many physical properties of insulators can be understood, fo ...
... occupied band is called valence band, while the lowest lying empty band goes by the name valence band. From our discussion above, it should be evident that these two bands play a dominant role in the physics of an insulating material, i.e. many physical properties of insulators can be understood, fo ...
There is entanglement in the primes
... Theory that explains its relevance for Pure Mathematics [1, 2]. However, we do not know of any fundamental physical theory that is based on deep facts in Number Theory [3]. In spite of this, there have been several attempts in the past to provide a physical meaning to prime numbers, with the hope th ...
... Theory that explains its relevance for Pure Mathematics [1, 2]. However, we do not know of any fundamental physical theory that is based on deep facts in Number Theory [3]. In spite of this, there have been several attempts in the past to provide a physical meaning to prime numbers, with the hope th ...
Tunnelling Effects in Chemistry
... slowly oxidized (it takes several years to see the effect of such slow oxidation – please visit the archive section of your institute library). Hence, the difference between the fast and slow oxidation of a similar material does not arise from the theromodynamics of the reaction but from the different ...
... slowly oxidized (it takes several years to see the effect of such slow oxidation – please visit the archive section of your institute library). Hence, the difference between the fast and slow oxidation of a similar material does not arise from the theromodynamics of the reaction but from the different ...
Quantum defect theory description of weakly bound levels and Feshbach...
... close-coupling equations are obtained out to a distance around r0 = 30–50 a.u., and then matched to linear combinations of single channel solutions (fi , gi ) in the appropriate long range potential for each channel i. In the present context, of course, those are van der Waals long range potentials ...
... close-coupling equations are obtained out to a distance around r0 = 30–50 a.u., and then matched to linear combinations of single channel solutions (fi , gi ) in the appropriate long range potential for each channel i. In the present context, of course, those are van der Waals long range potentials ...
Powerpoint 7/20
... If we consider qubit 1 as one subsystem and qubits 2 and 3 as another subsystem, then the state is separable across this divide However, if we consider qubits 1 and 2 as one system and qubits 3 as one subsystem, then the state is entangled across this divide. ...
... If we consider qubit 1 as one subsystem and qubits 2 and 3 as another subsystem, then the state is separable across this divide However, if we consider qubits 1 and 2 as one system and qubits 3 as one subsystem, then the state is entangled across this divide. ...
Quantum computing implementations with neutral
... such ideas are becoming closer and closer to reality, as this special issue is reporting on. Beside this, we would also like to underscore (a point that is usually not emphasized), that when quantum memories are discussed, such as the one depicted in Fig. 1 (lower layer), reference is usually made t ...
... such ideas are becoming closer and closer to reality, as this special issue is reporting on. Beside this, we would also like to underscore (a point that is usually not emphasized), that when quantum memories are discussed, such as the one depicted in Fig. 1 (lower layer), reference is usually made t ...
Past Research
... Hopf algebra with abelian group of grouplike elements (under some hypotheses on the parameters); these Hopf algebras are a very general collection to which the small quantum groups belong. In our proof, we used the classification of such Hopf algebras by Andruskiewitsch and Schneider [1]. In [34], m ...
... Hopf algebra with abelian group of grouplike elements (under some hypotheses on the parameters); these Hopf algebras are a very general collection to which the small quantum groups belong. In our proof, we used the classification of such Hopf algebras by Andruskiewitsch and Schneider [1]. In [34], m ...
Information Theory and Machine Learning
... When we wish to communicate with somebody we generally need to do so over an imperfect channel, be it a crackling telephone line, a noisy room or even just an unreliable internet connection. The channel will usually add noise to whatever we are saying/sending and so we need to protect against this. ...
... When we wish to communicate with somebody we generally need to do so over an imperfect channel, be it a crackling telephone line, a noisy room or even just an unreliable internet connection. The channel will usually add noise to whatever we are saying/sending and so we need to protect against this. ...
Towards an Understanding of the Mutual Dependency of
... exists solely within its essence. It is theoretically and practically indistinguishable from every other elementary particle of the same type that has ever existed anywhere in the universe. The elementary particle has no individual history. It has nowhere to put it. Since its existence equals its es ...
... exists solely within its essence. It is theoretically and practically indistinguishable from every other elementary particle of the same type that has ever existed anywhere in the universe. The elementary particle has no individual history. It has nowhere to put it. Since its existence equals its es ...
Physics 7802.01 Introduction
... Next, consider if reactions a) and c) could occur through the weak interaction. Here we must distinguish between interactions (collisions) as in a) and decays as in c). The probability of an interaction (e.g. a) involving only baryons and mesons occurring through the weak interactions is so small th ...
... Next, consider if reactions a) and c) could occur through the weak interaction. Here we must distinguish between interactions (collisions) as in a) and decays as in c). The probability of an interaction (e.g. a) involving only baryons and mesons occurring through the weak interactions is so small th ...
10 Supersymmetric gauge dynamics: N = 1 10.1 Confinement and
... dynamics and respecting the original symmetries of the problem. Combining the expression (10.11) with weak GF -breaking terms induced by actual quark masses, one gets a Lagrangian which, experimentally, does a good job. Summarizing, we see that combining symmetry arguments, lattice simulations, expe ...
... dynamics and respecting the original symmetries of the problem. Combining the expression (10.11) with weak GF -breaking terms induced by actual quark masses, one gets a Lagrangian which, experimentally, does a good job. Summarizing, we see that combining symmetry arguments, lattice simulations, expe ...