Why the Disjunction in Quantum Logic is Not Classical1
... in this situation. So let us correct this error by introducing the measurement : 7 ; that tests the two propositions together, by pouring out the water at both sides at once. The result is then that if we have more than 10 liters at the left, we have less than 10 liters at the right, and if we have ...
... in this situation. So let us correct this error by introducing the measurement : 7 ; that tests the two propositions together, by pouring out the water at both sides at once. The result is then that if we have more than 10 liters at the left, we have less than 10 liters at the right, and if we have ...
Quantum discord and remote state preparation
... early stage of the field of quantum information and computation, only tasks involving pure states were considered. In that scenario, as proven in Ref. [2], exponential computational speedup is possible only if entanglement grows with the size of the system. Therefore, entanglement was identified as ...
... early stage of the field of quantum information and computation, only tasks involving pure states were considered. In that scenario, as proven in Ref. [2], exponential computational speedup is possible only if entanglement grows with the size of the system. Therefore, entanglement was identified as ...
Quantum mechanics of a free particle from properties of the Dirac
... the charge density of a point charge,2–5 and the probability distribution of a random variable.6–8 Quantum mechanical systems for which the potential is a delta function are, as a rule, exactly solvable.9–15 The delta function is not a function in the usual sense. It is not even correct to define it ...
... the charge density of a point charge,2–5 and the probability distribution of a random variable.6–8 Quantum mechanical systems for which the potential is a delta function are, as a rule, exactly solvable.9–15 The delta function is not a function in the usual sense. It is not even correct to define it ...
Persistent currents controlled by non-classical electromagnetic fields J. D
... The amount of entanglement in this family of states increases with ε and can be measured by the concurrence = ⎟ ⎟ [9]. The problem of time-dependence has already been discussed in Ref. [2]. Here, we focus on the amplitude of the current. The plot of the resulting current vs. λ for ω1 ≈ ω2 is given i ...
... The amount of entanglement in this family of states increases with ε and can be measured by the concurrence = ⎟ ⎟ [9]. The problem of time-dependence has already been discussed in Ref. [2]. Here, we focus on the amplitude of the current. The plot of the resulting current vs. λ for ω1 ≈ ω2 is given i ...
Diverging equilibration times in long
... Equilibration is one of the central concepts of thermodynamics, but our understanding of the underlying microscopic processes is still far from complete. Studies of the approach to equilibrium can be traced back to Boltzmann’s work [1] in the early days of statistical mechanics, and they are also cl ...
... Equilibration is one of the central concepts of thermodynamics, but our understanding of the underlying microscopic processes is still far from complete. Studies of the approach to equilibrium can be traced back to Boltzmann’s work [1] in the early days of statistical mechanics, and they are also cl ...
Quantum Mechanics review WS
... simultaneously. The better you know one quantity, the more uncertain you must be of the other. 22. According to quantum mechanics theory, is it possible to track the motion of a particle from start to end? What does the theory say we can know about particle motion? No, that is impossible – the motio ...
... simultaneously. The better you know one quantity, the more uncertain you must be of the other. 22. According to quantum mechanics theory, is it possible to track the motion of a particle from start to end? What does the theory say we can know about particle motion? No, that is impossible – the motio ...
Chapter 41. One-Dimensional Quantum Mechanics
... its turning points are at x = 0 and x = L. 3. The regions x < 0 and x > L are forbidden. The particle cannot leave the box cannot leave the box. A potential‐energy function that describes the particle in this situation is ...
... its turning points are at x = 0 and x = L. 3. The regions x < 0 and x > L are forbidden. The particle cannot leave the box cannot leave the box. A potential‐energy function that describes the particle in this situation is ...
M06/11
... of the initial wave evolving along different paths. Each of the paths can contain quantum gates represented by unitary operators. After the subwaves pass through the quantum gates they are collected together by the combiner operator to form a final state. Finally, a measurement is performed on the fina ...
... of the initial wave evolving along different paths. Each of the paths can contain quantum gates represented by unitary operators. After the subwaves pass through the quantum gates they are collected together by the combiner operator to form a final state. Finally, a measurement is performed on the fina ...
on the behaviour of atoms in an electromagnetic wa ve field
... As well known, the properties of the atoms cannot be accoun.ted for on the basis of the classical theory of electrons. Still they exhibit in many respects a great similarity with the properties which, on the classical theory, systems consisting of small · electrically charged particles would possess ...
... As well known, the properties of the atoms cannot be accoun.ted for on the basis of the classical theory of electrons. Still they exhibit in many respects a great similarity with the properties which, on the classical theory, systems consisting of small · electrically charged particles would possess ...
One Hundred Years of Quantum Physics
... reasons for such turmoil, one needs to understand some of the key features of quantum theory, which we summarize here. (For simplicity, we describe the Schrödinger version of quantum mechanics, sometimes called wave mechanics.) Fundamental description: the wave function. The behavior of a system is ...
... reasons for such turmoil, one needs to understand some of the key features of quantum theory, which we summarize here. (For simplicity, we describe the Schrödinger version of quantum mechanics, sometimes called wave mechanics.) Fundamental description: the wave function. The behavior of a system is ...
Classical Models of Subatomic Particles
... distances from the particle much larger than the Compton wavelength. The interior solution will be modelled by a quantum distribution. But, however large the matching radius (rM ) is taken to be, the act of measuring the spacetime curvature on a surface at that distance (i.e. measuring the paramete ...
... distances from the particle much larger than the Compton wavelength. The interior solution will be modelled by a quantum distribution. But, however large the matching radius (rM ) is taken to be, the act of measuring the spacetime curvature on a surface at that distance (i.e. measuring the paramete ...
