QMC: A Model Checker for Quantum Systems
... transmission of a single qubit q and its measurement. The protocol relies on the principle that, if Alice and Bob use compatible bases for preparation and for measurement of this qubit, their bit values will be guaranteed to match by the laws of quantum mechanics. Incompatible bases will produce a m ...
... transmission of a single qubit q and its measurement. The protocol relies on the principle that, if Alice and Bob use compatible bases for preparation and for measurement of this qubit, their bit values will be guaranteed to match by the laws of quantum mechanics. Incompatible bases will produce a m ...
Phonon-like excitations in the two-state Bose
... which is a simple generalization of the hard-core boson model. Describing vibrational states of Bose-atom in a separate potential well in the lattice, we take into account the first excited level besides the ground one. Let us suppose that this level is nondegenerate; such a situation can be realized ...
... which is a simple generalization of the hard-core boson model. Describing vibrational states of Bose-atom in a separate potential well in the lattice, we take into account the first excited level besides the ground one. Let us suppose that this level is nondegenerate; such a situation can be realized ...
Presentation
... Bohm’s EPR) without interfering with the system, those parameters must be‘real’. • If a theory is to be considered complete, it should predict all real parameters, including the polarizations in Bohm’s EPR experiment. ...
... Bohm’s EPR) without interfering with the system, those parameters must be‘real’. • If a theory is to be considered complete, it should predict all real parameters, including the polarizations in Bohm’s EPR experiment. ...
Artificial Intelligence and Nature’s Fundamental Process Peter Marcer and Peter Rowlands
... This entirely novel bootstrap approach begins with the concept of the computational rewrite system, where a finite alphabet (and its relationships) symbolizes the form of the operational rules necessary to the execution of the program to be devised. Such a symbolization sets no limits to the form of ...
... This entirely novel bootstrap approach begins with the concept of the computational rewrite system, where a finite alphabet (and its relationships) symbolizes the form of the operational rules necessary to the execution of the program to be devised. Such a symbolization sets no limits to the form of ...
... mechanics based on Newton’s laws of motion and alternatively developed by Lagrange, Hamilton and others is called classical mechanics. When this mechanics deals with the Newton’s laws and their consequences, it may be called as Newtonian or vectorial mechanics, because in this scheme, the quantities ...
Introduction to the Bethe Ansatz I
... In 1931 Hans Bethe2 presented a method for obtaining the exact eigenvalues and eigenvectors of the onedimensional (1D) spin-1/2 Heisenberg model, a linear array of electrons with uniform exchange interaction between nearest neighbors. Bethe’s parametrization of the eigenvectors, the Bethe ansatz, ha ...
... In 1931 Hans Bethe2 presented a method for obtaining the exact eigenvalues and eigenvectors of the onedimensional (1D) spin-1/2 Heisenberg model, a linear array of electrons with uniform exchange interaction between nearest neighbors. Bethe’s parametrization of the eigenvectors, the Bethe ansatz, ha ...
Invited talks - Swinburne University
... traditional electron-nucleus scattering experiments, but from the atomic spectroscopy measurements supplemented with the modern atomic theory. When nuclear finite size is well known or does not contribute to the energy splitting, the fundamental physical constants such as: electron mass or the fine ...
... traditional electron-nucleus scattering experiments, but from the atomic spectroscopy measurements supplemented with the modern atomic theory. When nuclear finite size is well known or does not contribute to the energy splitting, the fundamental physical constants such as: electron mass or the fine ...
Beyond Transition-State Theory: A Rigorous
... nature of the reaction coordinate (Le., the tunneling correction). Furthermore, it is clearlyan approximation to assume that the reaction coordinate, the Fth degree of freedom, is separable from the other (F - 1)degrees of freedom. To have a quantum transition-state theory that is free of this appro ...
... nature of the reaction coordinate (Le., the tunneling correction). Furthermore, it is clearlyan approximation to assume that the reaction coordinate, the Fth degree of freedom, is separable from the other (F - 1)degrees of freedom. To have a quantum transition-state theory that is free of this appro ...
Uncertainty relation between angle and orbital angular momentum
... to the multivalued angle variable φ. Therefore, the angle uncertainty ∆φ cannot be defined as the position uncertainty ∆Q was defined. The uncertainty relation between angle and orbital angular momentum is a longstanding issue in physics. Many people have proposed other definitions of the angle unce ...
... to the multivalued angle variable φ. Therefore, the angle uncertainty ∆φ cannot be defined as the position uncertainty ∆Q was defined. The uncertainty relation between angle and orbital angular momentum is a longstanding issue in physics. Many people have proposed other definitions of the angle unce ...
space and time, mass and energy accentuation dissipation models
... observe a comet crashing into Jupiter (this is the event ). In general, they will disagree about the exact location and timing of this impact, i.e., they will have different 4-tuples (as they are using different coordinate systems). Although their kinematic descriptions will differ, dynamical (physi ...
... observe a comet crashing into Jupiter (this is the event ). In general, they will disagree about the exact location and timing of this impact, i.e., they will have different 4-tuples (as they are using different coordinate systems). Although their kinematic descriptions will differ, dynamical (physi ...
Edge States and Contacts in the Quantum Hall Effect
... The study of current carrying samples in magnetic fields has been of increasing interest to the scientific community ever since the discovery of the electromagnetism by H.C. Ørsted in 1820. In 1879, it was observed that a transverse voltage difference builds up, when a conducting sheet is placed in ...
... The study of current carrying samples in magnetic fields has been of increasing interest to the scientific community ever since the discovery of the electromagnetism by H.C. Ørsted in 1820. In 1879, it was observed that a transverse voltage difference builds up, when a conducting sheet is placed in ...
Coupled quantum dots as quantum gates
... the effective Bohr radius of a single isolated harmonic well. This choice for the potential is motivated by the experimental fact5 that the spectrum of single dots in GaAs is well described by a parabolic confinement potential, e.g., with \ v 0 53 meV. 5 We note that increasing ~decreasing! the inte ...
... the effective Bohr radius of a single isolated harmonic well. This choice for the potential is motivated by the experimental fact5 that the spectrum of single dots in GaAs is well described by a parabolic confinement potential, e.g., with \ v 0 53 meV. 5 We note that increasing ~decreasing! the inte ...
Incoherent dynamics in neutron
... microsystem interacting with a system having many degrees of freedom ~e.g., matter seen as an optical medium characterized by an index of refraction! has been extensively studied, and contains some typical quantum-mechanical features, such as quantum correlations between the two systems, by which a ...
... microsystem interacting with a system having many degrees of freedom ~e.g., matter seen as an optical medium characterized by an index of refraction! has been extensively studied, and contains some typical quantum-mechanical features, such as quantum correlations between the two systems, by which a ...
Cold heteronuclear atom
... wavelength of the colliding particles becoming comparable to the length scale of the molecular interactions. Quantum mechanics then dominates the elastic and inelastic scattering phenomena and cross sections. Understanding elastic collisions in this regime is fundamental for achieving and optimizing ...
... wavelength of the colliding particles becoming comparable to the length scale of the molecular interactions. Quantum mechanics then dominates the elastic and inelastic scattering phenomena and cross sections. Understanding elastic collisions in this regime is fundamental for achieving and optimizing ...
The 1925 Born and Jordan paper “On quantum mechanics”
... Born.1 For Born and others, quantum mechanics denoted a canonical theory of atomic and electronic motion of the same level of generality and consistency as classical mechanics. The transition from classical mechanics to a true quantum mechanics remained an elusive goal prior to 1925. Heisenberg made ...
... Born.1 For Born and others, quantum mechanics denoted a canonical theory of atomic and electronic motion of the same level of generality and consistency as classical mechanics. The transition from classical mechanics to a true quantum mechanics remained an elusive goal prior to 1925. Heisenberg made ...
6. Edge Modes
... It’s tempting to say that this vanishes because it’s the integral of a total derivative. But if is compact, that’s no longer true. We have the possibility that winds some number of times as we go around the circle. For example, the configuration = 2⇡p /L is single valued for any integer p. Evaluated ...
... It’s tempting to say that this vanishes because it’s the integral of a total derivative. But if is compact, that’s no longer true. We have the possibility that winds some number of times as we go around the circle. For example, the configuration = 2⇡p /L is single valued for any integer p. Evaluated ...
Quantum Information—S. Lloyd, L. Levitov, T. Orlando, J. H. Shapiro, N.C. Wong
... Quantum mechanics offers a variety of opportunities both to protect information (quantum cryptography) and to improve the precision of measurement, positioning and timing techniques. We are developing the world’s brightest source of narrow band entangled photons and are planning to use this source t ...
... Quantum mechanics offers a variety of opportunities both to protect information (quantum cryptography) and to improve the precision of measurement, positioning and timing techniques. We are developing the world’s brightest source of narrow band entangled photons and are planning to use this source t ...
