Quantum simulation of disordered systems with cold atoms
... universality class of time-reversal-invariant systems, to which it indeed belongs, as the Hamiltonian (2) is time independent. Experimental study of the Anderson model in condensed matter is difficult, for a variety of reasons: The tight-binding model is a one-electron approach, which does not take ...
... universality class of time-reversal-invariant systems, to which it indeed belongs, as the Hamiltonian (2) is time independent. Experimental study of the Anderson model in condensed matter is difficult, for a variety of reasons: The tight-binding model is a one-electron approach, which does not take ...
Graphene - âmost two-dimensionalâ system imaginable
... scientists test in, say, CERN, but small enough to stand on top of your table. Graphene allows this to happen. Having such a material in hand, one can easily think of many useful things that can eventually come out. As concerns new physics, no one doubts about it already...'' ...
... scientists test in, say, CERN, but small enough to stand on top of your table. Graphene allows this to happen. Having such a material in hand, one can easily think of many useful things that can eventually come out. As concerns new physics, no one doubts about it already...'' ...
Effect of external energy on atomic, crystalline and powder
... Abstract. Next to atoms and molecules the powders are the smallest state of matter available in high purities and large quantities. The effect of any external energy on the shape, morphology and structure can thus be studied with relative ease. The present investigation deals with the effect of a no ...
... Abstract. Next to atoms and molecules the powders are the smallest state of matter available in high purities and large quantities. The effect of any external energy on the shape, morphology and structure can thus be studied with relative ease. The present investigation deals with the effect of a no ...
Some insights on theoretical reaction dynamics: Use
... reaction probability convergence, not with a small set of distant energy values but with a whole set of closely spaced energy values, for each necessary numerical parameters set. An explicit study of the dependence of the reaction probability with the final hyperradius value has been also incliided. ...
... reaction probability convergence, not with a small set of distant energy values but with a whole set of closely spaced energy values, for each necessary numerical parameters set. An explicit study of the dependence of the reaction probability with the final hyperradius value has been also incliided. ...
Optomechanics in the Quantum Regime
... and microwave cavities coupled to nanobeams [23, 24, 25, 26, 27, 28, 29, 30]. Another modification of the basic optomechanical setup directs us towards another main issue of this thesis: The idea is to replace the solid mechanical object of conventional setups by a cloud of cold atoms coupled to a s ...
... and microwave cavities coupled to nanobeams [23, 24, 25, 26, 27, 28, 29, 30]. Another modification of the basic optomechanical setup directs us towards another main issue of this thesis: The idea is to replace the solid mechanical object of conventional setups by a cloud of cold atoms coupled to a s ...
Polarized interacting exciton gas in quantum wells and bulk semiconductors
... equation.19,20 The physics underlying the three approaches is always a mean field treatment of interaction between spinless excitons and so the equations obtained are analogous. The differences lie in the obtaining of the equations and in the physical nature of the mathematical objects the theories ...
... equation.19,20 The physics underlying the three approaches is always a mean field treatment of interaction between spinless excitons and so the equations obtained are analogous. The differences lie in the obtaining of the equations and in the physical nature of the mathematical objects the theories ...
Ionization in strong low-frequency fields: from quantum S
... Let’s be frank: Eq.(7) does not look very inviting. However, it this this general – and exact – expression where interesting approximations can be explicitly tried, sometimes based on rigorous math and sometimes based on physical reasoning. Let us look at the physics behind the expression Eq.(7). Th ...
... Let’s be frank: Eq.(7) does not look very inviting. However, it this this general – and exact – expression where interesting approximations can be explicitly tried, sometimes based on rigorous math and sometimes based on physical reasoning. Let us look at the physics behind the expression Eq.(7). Th ...
Local current distribution and hot spots in the integer quantum... Yonatan Dubi, Yigal Meir, and Yshai Avishai
... ferent modes of the electronic wave function being successively occupied as the conductance through the QPC increases in quantized steps.7 Following this experiment, a theoretical model was devised8 that mimics this experiment and yields similar results for the distribution of current. A similar exp ...
... ferent modes of the electronic wave function being successively occupied as the conductance through the QPC increases in quantized steps.7 Following this experiment, a theoretical model was devised8 that mimics this experiment and yields similar results for the distribution of current. A similar exp ...
