313_1.pdf
... characterize defects and particles on wafers in order to further device miniaturization. It is anticipated that by 2005 accurate calibration particles as small as 30 nm will be needed. Improved standards for particles are necessary for wafer manufacturers and device manufacturers to consistently cha ...
... characterize defects and particles on wafers in order to further device miniaturization. It is anticipated that by 2005 accurate calibration particles as small as 30 nm will be needed. Improved standards for particles are necessary for wafer manufacturers and device manufacturers to consistently cha ...
URL - StealthSkater
... At a given level of hierarchy, one can identify the decomposition of space-time surface to p-adic regions with the corresponding decomposition of the infinite prime to primes at a lower level of infinity. At the basic level are finite primes for which one cannot find any formula. B. Two views about ...
... At a given level of hierarchy, one can identify the decomposition of space-time surface to p-adic regions with the corresponding decomposition of the infinite prime to primes at a lower level of infinity. At the basic level are finite primes for which one cannot find any formula. B. Two views about ...
Neutron scattering from quantum condensed matter
... are thermally excited in pairs and are the quantum equivalent of classical domain walls or solitons. Their direct excitation by neutrons gives rise to the continuum of scattering noted in the early experiments. A recent and beautiful measurement of the spinon continuum for a model 1D Heisenberg chai ...
... are thermally excited in pairs and are the quantum equivalent of classical domain walls or solitons. Their direct excitation by neutrons gives rise to the continuum of scattering noted in the early experiments. A recent and beautiful measurement of the spinon continuum for a model 1D Heisenberg chai ...
Spatial ordering of charge and spin in quasi-one
... bitals. Spatial single-electron wave functions have been obtained by numerical diagonalization of the finite-difference version of the single-electron one-dimensional Hamiltonian (4) on a mesh of points. In construction of the Slater determinants with required spin and parity symmetries we use the s ...
... bitals. Spatial single-electron wave functions have been obtained by numerical diagonalization of the finite-difference version of the single-electron one-dimensional Hamiltonian (4) on a mesh of points. In construction of the Slater determinants with required spin and parity symmetries we use the s ...
Book of Abstracts
... fields so called synthetic (pseudo electric) fields should be in addition generated which should lead to observable consequences. For instance we recently showed that these fields lead to a new early not known loss mechanism in graphene nanoresonators which was responsible for significantly increase ...
... fields so called synthetic (pseudo electric) fields should be in addition generated which should lead to observable consequences. For instance we recently showed that these fields lead to a new early not known loss mechanism in graphene nanoresonators which was responsible for significantly increase ...
Quantum energy gaps and first-order mean-field transitions
... distance) energy barriers. Thermal annealing is much better at low, but deep barrier crossing. However, in a first-order transition the two states whose free energies cross are generally far from each other in the phase space; quantum tunneling must be inefficient. To make this argument more precise ...
... distance) energy barriers. Thermal annealing is much better at low, but deep barrier crossing. However, in a first-order transition the two states whose free energies cross are generally far from each other in the phase space; quantum tunneling must be inefficient. To make this argument more precise ...
JIA 71 (1943) 0228-0258 - Institute and Faculty of Actuaries
... conception of distance enters into their observations, while they use vectors for expressing their formulae. Vectors do not involve any assumption as to how a distance is measured. The metric is introduced later as a separate step. Using them may be compared in some ways to working in decimals inste ...
... conception of distance enters into their observations, while they use vectors for expressing their formulae. Vectors do not involve any assumption as to how a distance is measured. The metric is introduced later as a separate step. Using them may be compared in some ways to working in decimals inste ...
as a PDF
... quantum half adders contributing to the Sn-1 output cannot both be one. The sum out of the first will be zero if its carry is one, and the carry from the second cannot be one if the first half-adder’s sum is zero. Therefore, a CNOT gate can be used in place of a half adder to generate the most signi ...
... quantum half adders contributing to the Sn-1 output cannot both be one. The sum out of the first will be zero if its carry is one, and the carry from the second cannot be one if the first half-adder’s sum is zero. Therefore, a CNOT gate can be used in place of a half adder to generate the most signi ...
Universal computation by multi-particle quantum walk
... • Applies generically to multi-particle quantum walks with indistinguishable particles. • Establishes the computational power of interacting many-body systems such as the BoseHubbard model, fermions with nearest neighbour interactions, and more. Our method for performing universal computation exploi ...
... • Applies generically to multi-particle quantum walks with indistinguishable particles. • Establishes the computational power of interacting many-body systems such as the BoseHubbard model, fermions with nearest neighbour interactions, and more. Our method for performing universal computation exploi ...
Spin filtering and entanglement detection due to spin-orbit interaction
... cross-junction directly to a microscopic Hamiltonian. Hence we do not treat high-efficiency (50-50) beam splitters such as required for proposed noise-measurement based proofs of entanglement through, for instance, Bell inequalities,62–64 entanglement witnesses,65 or quantum state tomography.66 It s ...
... cross-junction directly to a microscopic Hamiltonian. Hence we do not treat high-efficiency (50-50) beam splitters such as required for proposed noise-measurement based proofs of entanglement through, for instance, Bell inequalities,62–64 entanglement witnesses,65 or quantum state tomography.66 It s ...
Spin relaxation in quantum dots with random spin
... quantum dot 共QD兲, i.e., its spin, is thought to be a useful tool for the realization of nanoscale devices that can be used for information processing.1,2 The interaction of spins with the environment on the one hand allows necessary read and write procedures but on the other hand leads to losses of ...
... quantum dot 共QD兲, i.e., its spin, is thought to be a useful tool for the realization of nanoscale devices that can be used for information processing.1,2 The interaction of spins with the environment on the one hand allows necessary read and write procedures but on the other hand leads to losses of ...
Bell's theorem
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Bell's theorem is a ‘no-go theorem’ that draws an important distinction between quantum mechanics (QM) and the world as described by classical mechanics. This theorem is named after John Stewart Bell.In its simplest form, Bell's theorem states:Cornell solid-state physicist David Mermin has described the appraisals of the importance of Bell's theorem in the physics community as ranging from ""indifference"" to ""wild extravagance"". Lawrence Berkeley particle physicist Henry Stapp declared: ""Bell's theorem is the most profound discovery of science.""Bell's theorem rules out local hidden variables as a viable explanation of quantum mechanics (though it still leaves the door open for non-local hidden variables). Bell concluded:Bell summarized one of the least popular ways to address the theorem, superdeterminism, in a 1985 BBC Radio interview: