Single shot imaging of trapped Fermi gas
... {x(s+1) }N = {xN }N . Typically we generate 2 × 106 configurations, each being a set of N positions on a two dimensional plane. Next we collect many realizations of the quantum state and after M realizations we have N × M positions of particles. A histogram of such realizations, i.e. one-particle de ...
... {x(s+1) }N = {xN }N . Typically we generate 2 × 106 configurations, each being a set of N positions on a two dimensional plane. Next we collect many realizations of the quantum state and after M realizations we have N × M positions of particles. A histogram of such realizations, i.e. one-particle de ...
Chapter 1
... tools orders of magnitude more complicated that current CAD tools. Open question is what will be the future CAD tools to design quantum computers on levels of system, subsystem, communication, block, logic, sensor interface and layout/physical design. Similarly in the research areas of Artificial I ...
... tools orders of magnitude more complicated that current CAD tools. Open question is what will be the future CAD tools to design quantum computers on levels of system, subsystem, communication, block, logic, sensor interface and layout/physical design. Similarly in the research areas of Artificial I ...
Markov Chain-Like Quantum Biological Modeling of Mutations
... noisy”), and very exotic states get suppressed with biological system-environment interaction so that the biological system moves into the preferred state. This transformation (mapping) of the initial density operator of the system ρ to the final density operator of the biological system ρf, represe ...
... noisy”), and very exotic states get suppressed with biological system-environment interaction so that the biological system moves into the preferred state. This transformation (mapping) of the initial density operator of the system ρ to the final density operator of the biological system ρf, represe ...
Physical Principles Handout
... The total momentum of an isolated system of particles is constant. ...
... The total momentum of an isolated system of particles is constant. ...
An Alternative View of the Fine Structure Constant and its Drift
... magnetic flux of force associated with the quanta of electric and magnetic flux, a representation of α is presented, which is independent of the unit system. I show that α may be understood as the ratio of the quanta of electric and magnetic flux of force, while h c is proportional to the product. T ...
... magnetic flux of force associated with the quanta of electric and magnetic flux, a representation of α is presented, which is independent of the unit system. I show that α may be understood as the ratio of the quanta of electric and magnetic flux of force, while h c is proportional to the product. T ...
Classical and quantum dynamics on p
... Freud’s psychoanalysis, hypnotism, homeopathy. It may be used as the basis of a model of conscious evolution of life. © 2000 Elsevier Science Ireland Ltd. All rights reserved. Keywords: p-Adic number representation; Classical information force; Quantum information force; Conscious evolution of life ...
... Freud’s psychoanalysis, hypnotism, homeopathy. It may be used as the basis of a model of conscious evolution of life. © 2000 Elsevier Science Ireland Ltd. All rights reserved. Keywords: p-Adic number representation; Classical information force; Quantum information force; Conscious evolution of life ...
The de Broglie-Bohm pilot-wave interpretation
... Omni: Aren't the contradictions you have been talking about embedded in the very name quantum mechanics? Bohm: Yes. Physics is more like quantum organism than quantum mechanics. I think physicists have a tremendous reluctance to admit this. There is a long history of belief in quantum mechanics, and ...
... Omni: Aren't the contradictions you have been talking about embedded in the very name quantum mechanics? Bohm: Yes. Physics is more like quantum organism than quantum mechanics. I think physicists have a tremendous reluctance to admit this. There is a long history of belief in quantum mechanics, and ...
6 Product Operators
... the applied magnetic field, but this Hamiltonian changes when a radiofrequency pulse is applied. ...
... the applied magnetic field, but this Hamiltonian changes when a radiofrequency pulse is applied. ...
6 Product Operators
... The Hamiltonian, H, is the special name given to the operator for the energy of the system. This operator is exceptionally important as its eigenvalues and eigenfunctions are the "energy levels" of the system, and it is transitions between these energy levels which are detected in spectroscopy. To u ...
... The Hamiltonian, H, is the special name given to the operator for the energy of the system. This operator is exceptionally important as its eigenvalues and eigenfunctions are the "energy levels" of the system, and it is transitions between these energy levels which are detected in spectroscopy. To u ...
Pauli`s Principle in Probe Microscopy
... much greater than their equilibrium bond length as distinguishable. Only when those atoms are brought together so that there is appreciable overlap of electronic wavefuctions, as in chemical bond formation or, as we shall discuss below, a dynamic force microscopy experiment, can one state that the e ...
... much greater than their equilibrium bond length as distinguishable. Only when those atoms are brought together so that there is appreciable overlap of electronic wavefuctions, as in chemical bond formation or, as we shall discuss below, a dynamic force microscopy experiment, can one state that the e ...
Mechanical quantum resonators A. N. Cleland and M. R. Geller
... mechanical and electrodynamic boundary conditions leads to a Hamiltonian for a single junction coupled to a resonator H = HJ + Hres + δ H, where δ H = −ig(a − a† )δ , and g is a real-valued coupling constant with dimensions of energy. The eigenstates of HJ + Hres are |mni ≡ |miJ ⊗ |nires , with ener ...
... mechanical and electrodynamic boundary conditions leads to a Hamiltonian for a single junction coupled to a resonator H = HJ + Hres + δ H, where δ H = −ig(a − a† )δ , and g is a real-valued coupling constant with dimensions of energy. The eigenstates of HJ + Hres are |mni ≡ |miJ ⊗ |nires , with ener ...
