Simple Resonance Hierarchy for Surmounting Quantum Uncertainty
... relativistic conditions. These criteria are no longer sufficient and indeed our protocol for surmounting the uncertainty principle requires description of a new cosmological regime described by a new set of 12D transformations [22,23] we hope to call the Noetic Transformation because of its relevanc ...
... relativistic conditions. These criteria are no longer sufficient and indeed our protocol for surmounting the uncertainty principle requires description of a new cosmological regime described by a new set of 12D transformations [22,23] we hope to call the Noetic Transformation because of its relevanc ...
Quantum Phenomena in Low-Dimensional Systems Michael R. Geller
... (This expression is a consequence of Feynman’s path integral formulation of quantum mechanics, but one can also view it as a generalization of the double-slit interference formula to an infinite number of “slits.”) The cross-terms in this expression are responsible for interference. Usually when ope ...
... (This expression is a consequence of Feynman’s path integral formulation of quantum mechanics, but one can also view it as a generalization of the double-slit interference formula to an infinite number of “slits.”) The cross-terms in this expression are responsible for interference. Usually when ope ...
CSE 599d - Quantum Computing Introduction and Basics of
... quantum mechanical in nature. The rough picture you might have is that large objects obey some laws, which we call the classical laws of physics and then as we get to smaller objects, the laws turn into quantum laws. The emergence ...
... quantum mechanical in nature. The rough picture you might have is that large objects obey some laws, which we call the classical laws of physics and then as we get to smaller objects, the laws turn into quantum laws. The emergence ...
From Quantum theory to Quantum theology: Abstract J
... reality and that it even plays a part in creating reality (Polkinghome 1989:60-69). The mysteries and puzzles of our quantum world are numerous (cf Penrose 1989: 225-301). For the purpose of this paper I will confine myself to one more. In 1935 the EPR-experiment8 was conducted. The name comes from ...
... reality and that it even plays a part in creating reality (Polkinghome 1989:60-69). The mysteries and puzzles of our quantum world are numerous (cf Penrose 1989: 225-301). For the purpose of this paper I will confine myself to one more. In 1935 the EPR-experiment8 was conducted. The name comes from ...
Quantum Expanders: Motivation and Constructions
... are at most 1, and that the completely mixed state I˜ = I/|V | is an eigenvector of any such E, with corresponding eigenvalue 1. We say that such a super-operator E has a 1 − λ spectral gap if all the remaining singular values of E are smaller than λ . This is analogous to the way regular, directed ...
... are at most 1, and that the completely mixed state I˜ = I/|V | is an eigenvector of any such E, with corresponding eigenvalue 1. We say that such a super-operator E has a 1 − λ spectral gap if all the remaining singular values of E are smaller than λ . This is analogous to the way regular, directed ...
270
... As the quantum analogue of the fictitious kinetic energy term goes to zero, the Hamiltonian in eq 15 approximates the adiabatic quantum Hamiltonian of the system (i.e., quantummechanical nuclei on an approximation to the adiabatic, BornOppenheimer, electronic surface given by the energy functional E ...
... As the quantum analogue of the fictitious kinetic energy term goes to zero, the Hamiltonian in eq 15 approximates the adiabatic quantum Hamiltonian of the system (i.e., quantummechanical nuclei on an approximation to the adiabatic, BornOppenheimer, electronic surface given by the energy functional E ...
... The electromagnetic phenomena form an integral part of modern technology. They are at work in all electrical motors, and our communication devices utilize their oscillatory behaviour in essential ways. Our radio receivers and mobile phones are all based on the ability of the radiation to sustain wel ...
The Role of Indistinguishability of Identical Particles in
... our protocol. Each pair is composed of two n-particle states entangled between Alice and Bob with at most 1 e-bit of entanglement. . . . . . . . 99 This figure represents the setup for our entanglement concentration protocol using quantum statistics. Initially, Alice and Bob share two pairs of entan ...
... our protocol. Each pair is composed of two n-particle states entangled between Alice and Bob with at most 1 e-bit of entanglement. . . . . . . . 99 This figure represents the setup for our entanglement concentration protocol using quantum statistics. Initially, Alice and Bob share two pairs of entan ...
Quantum cryptography
... • protons, electrons and neutrons (from which matter is built); • photons (which carry electromagnetic radiation) • various “elementary particles” which mediate other interactions in physics. We call them particles in spite of the fact that some of their properties are totally unlike the properties ...
... • protons, electrons and neutrons (from which matter is built); • photons (which carry electromagnetic radiation) • various “elementary particles” which mediate other interactions in physics. We call them particles in spite of the fact that some of their properties are totally unlike the properties ...
The additivity problem in quantum information theory
... memoryless quantum channels with respect to entangled encodings. Should the additivity fail, this would mean that applying entangled inputs to several independent uses of a quantum channel may result in superadditive increase of its capacity for transmission of classical information. However so far ...
... memoryless quantum channels with respect to entangled encodings. Should the additivity fail, this would mean that applying entangled inputs to several independent uses of a quantum channel may result in superadditive increase of its capacity for transmission of classical information. However so far ...
