Quantum reflection and interference of matter waves from
... where pn (y) = 2 kn2 − 2mCγ /y γ is the local momentum for y → 0 and ys is some arbitrary starting point. We remark that one can estimate whether or not the WKB wave function is a good approximation to the exact solution of the Schrödinger equation (1) by means of the badlands function [2]. In Sec ...
... where pn (y) = 2 kn2 − 2mCγ /y γ is the local momentum for y → 0 and ys is some arbitrary starting point. We remark that one can estimate whether or not the WKB wave function is a good approximation to the exact solution of the Schrödinger equation (1) by means of the badlands function [2]. In Sec ...
The Big Picture - UMD WordPress blog
... This chapter is about how to see the relation between classical, quantum, and superquantum correlations geometrically. The key is the diagram in Figure 5.2, which is a schematic representation of the different sorts of correlations in Bananaworld. Architects refer to the basic organizing scheme of a ...
... This chapter is about how to see the relation between classical, quantum, and superquantum correlations geometrically. The key is the diagram in Figure 5.2, which is a schematic representation of the different sorts of correlations in Bananaworld. Architects refer to the basic organizing scheme of a ...
Spectroscopic Selection Rules: The Role of Photon States
... light can be thought of as an equal mixture of left and right circularly polarized light, while any other state of polarization (e.g., elliptical polarization) will contain unequal proportions of photons with opposite helicities. Now consider a transition in which an electron moves from one atomic o ...
... light can be thought of as an equal mixture of left and right circularly polarized light, while any other state of polarization (e.g., elliptical polarization) will contain unequal proportions of photons with opposite helicities. Now consider a transition in which an electron moves from one atomic o ...
Quantum Hall Effects and Related Topics International Symposium
... the mass of electrons are effectively changed. In a strong magnetic field, the cyclotron orbits of free electrons are quantized and Landau levels forms with a massive degeneracy within. In 1976, Hofstadter showed that for 2-dimensional electronic system, the intriguing interplay between these two quan ...
... the mass of electrons are effectively changed. In a strong magnetic field, the cyclotron orbits of free electrons are quantized and Landau levels forms with a massive degeneracy within. In 1976, Hofstadter showed that for 2-dimensional electronic system, the intriguing interplay between these two quan ...
View/Open
... medium, and hybrid quantum mechanics/molecular mechanics (QM/MM) models,20,21 where the explicit molecular structure of the environment is retained. The effects from the environment on the quantum part are described by an embedding potential which is added to the electronic Hamiltonian. In this work ...
... medium, and hybrid quantum mechanics/molecular mechanics (QM/MM) models,20,21 where the explicit molecular structure of the environment is retained. The effects from the environment on the quantum part are described by an embedding potential which is added to the electronic Hamiltonian. In this work ...
quantum computation of the jones polynomial - Unicam
... crossings at which D1 passes over (or under) D2 , considered with the sign given by the convection above. Equivalently the linking number lk(K1, K2)D is half the sum of the signs of the crossings at which one strand is from K1 and the other is from K2 . We can see that this number is invariant for R ...
... crossings at which D1 passes over (or under) D2 , considered with the sign given by the convection above. Equivalently the linking number lk(K1, K2)D is half the sum of the signs of the crossings at which one strand is from K1 and the other is from K2 . We can see that this number is invariant for R ...
Quantum States of Neutrons in the Gravitational Field
... the grandest cultural achievements in the history of mankind. Yet, they stand separate. The presently adopted view of gravity is provided by Einstein’s General Theory of Relativity and has been unchallenged for almost a century. During this time, particle physics has firmly established that the thre ...
... the grandest cultural achievements in the history of mankind. Yet, they stand separate. The presently adopted view of gravity is provided by Einstein’s General Theory of Relativity and has been unchallenged for almost a century. During this time, particle physics has firmly established that the thre ...
Quantum Computation and Quantum Information
... Quantum mechanics depicts phenomena at microscopic level such as position and momentum of an individual particle like an atom or electron, spin of an electron, detection of light photons, and the emission and absorption of light by atoms. Unlike classical mechanics where physical entities like posit ...
... Quantum mechanics depicts phenomena at microscopic level such as position and momentum of an individual particle like an atom or electron, spin of an electron, detection of light photons, and the emission and absorption of light by atoms. Unlike classical mechanics where physical entities like posit ...
Coarse graining and renormalization: the bottom up approach
... Spin foams and space time atoms. Coarse graining without a scale. The importance of refining states. Tensor network coarse graining algorithms. Application to spin foams / spin nets. Classifying (symmetry protected) phases. New representations and vacua in loop quantum gravity Expanding the theory a ...
... Spin foams and space time atoms. Coarse graining without a scale. The importance of refining states. Tensor network coarse graining algorithms. Application to spin foams / spin nets. Classifying (symmetry protected) phases. New representations and vacua in loop quantum gravity Expanding the theory a ...