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... concurrent application of single gates in order to reduce the overall execution time of the circuit realization. While first approaches for synthesis with respect to depth have recently been introduced (see e.g. [7–11]), the vast majority of design methods does not consider this metric. As an exampl ...
... concurrent application of single gates in order to reduce the overall execution time of the circuit realization. While first approaches for synthesis with respect to depth have recently been introduced (see e.g. [7–11]), the vast majority of design methods does not consider this metric. As an exampl ...
Gold, copper, silver and aluminum nanoantennas to enhance
... Single molecules, nanocrystals and nanotubes are relevant light emitters for fundamental research and applications.1,2,3,4,5,6 However, many of these systems exhibit a low quantum yield and often photobleach. The latter issue can be solved by embedding the emitter into a matrix, such that reactive e ...
... Single molecules, nanocrystals and nanotubes are relevant light emitters for fundamental research and applications.1,2,3,4,5,6 However, many of these systems exhibit a low quantum yield and often photobleach. The latter issue can be solved by embedding the emitter into a matrix, such that reactive e ...
4 Theory of quantum scattering and chemical reactions
... These two examples show that scattering delays as defined here are usually negative for central-potential scattering. Positive delays are, however, possible when the colliding particles have internal structure. In this case the kinetic energy of the collision may be partially converted into internal ...
... These two examples show that scattering delays as defined here are usually negative for central-potential scattering. Positive delays are, however, possible when the colliding particles have internal structure. In this case the kinetic energy of the collision may be partially converted into internal ...
Strings as hadrons
... theory of gravity, and a framework for understanding black holes. It is also a powerful technical tool for taming strongly interacting Quantum Field theories and, perhaps, a basis for formulating a fundamental theory of the Universe. It even touches on problems in condensed-matter physics and has al ...
... theory of gravity, and a framework for understanding black holes. It is also a powerful technical tool for taming strongly interacting Quantum Field theories and, perhaps, a basis for formulating a fundamental theory of the Universe. It even touches on problems in condensed-matter physics and has al ...
Experimental demonstration of quantum correlations over more than
... us mention two of the fundamental issues. First there is the local-hidden-variable program. It seems clear that if there are no hidden variables after 10 m, there are also none after 10 km. Since our experiments improve the physical distance at the cost of higher losses, less efficient and more nois ...
... us mention two of the fundamental issues. First there is the local-hidden-variable program. It seems clear that if there are no hidden variables after 10 m, there are also none after 10 km. Since our experiments improve the physical distance at the cost of higher losses, less efficient and more nois ...
Gravitation and quantum interference experiments with neutrons
... the 2 MW University of Michigan Reactor, and the signal is based on the interference between coherently split and separated neutron de Broglie waves in the gravity potential. Another idea is to explore a unique system consisting of a single particle, a neutron falling in the gravity potential of the ...
... the 2 MW University of Michigan Reactor, and the signal is based on the interference between coherently split and separated neutron de Broglie waves in the gravity potential. Another idea is to explore a unique system consisting of a single particle, a neutron falling in the gravity potential of the ...
URL - StealthSkater
... This means that Subjective-Time evolution corresponds to the sequence of quantum jumps Ψi→ U Ψi → Ψf consisting of unitary process followed by state function process. Originally, U was thought to be the TGD counterpart of the unitary time evolution operator U(-t,t), t→ ∞ associated with the scatter ...
... This means that Subjective-Time evolution corresponds to the sequence of quantum jumps Ψi→ U Ψi → Ψf consisting of unitary process followed by state function process. Originally, U was thought to be the TGD counterpart of the unitary time evolution operator U(-t,t), t→ ∞ associated with the scatter ...
Adaptive Wave Models for Sophisticated Option Pricing
... t -evolution of stochastic volatility, which plays the role of a nonlinear coefficient in (16); the -NLS (16) defines the ( s, t ) -evolution of option price, which plays the role of a nonlinear coefficient in (15). The purpose of this coupling is to generate a leverage effect, i.e. stock vola ...
... t -evolution of stochastic volatility, which plays the role of a nonlinear coefficient in (16); the -NLS (16) defines the ( s, t ) -evolution of option price, which plays the role of a nonlinear coefficient in (15). The purpose of this coupling is to generate a leverage effect, i.e. stock vola ...
Erasable and Unerasable Correlations
... about cloning and state estimation. We know that quantum information cannot be copied or broadcast exactly, due to the no-cloning theorem. Nevertheless, one can find approximate optimal cloning operations which increase the number of copies of a state at the expense of the quality. In the presence o ...
... about cloning and state estimation. We know that quantum information cannot be copied or broadcast exactly, due to the no-cloning theorem. Nevertheless, one can find approximate optimal cloning operations which increase the number of copies of a state at the expense of the quality. In the presence o ...
Toward Quantum Computational Agents.
... laureates such as Max Planck, Niels Bohr, Richard Feynman, Albert Einstein, Werner Heisenberg, and Erwin Schrödinger. It uses quantum mechanics as a mathematical language to explain nature at the atomic scale. In quantum mechanics, quantum objects including neutrons, protons, quarks, and light part ...
... laureates such as Max Planck, Niels Bohr, Richard Feynman, Albert Einstein, Werner Heisenberg, and Erwin Schrödinger. It uses quantum mechanics as a mathematical language to explain nature at the atomic scale. In quantum mechanics, quantum objects including neutrons, protons, quarks, and light part ...
ENTROPY FOR SU(3) QUARK STATES
... Finally we mention quantum information theory as another field of science where similar techniques involving the density matrices and the corresponding entropies are used. Although the difficulties arising from the quantum mechanical structure present in the statistical physics have been recognized ...
... Finally we mention quantum information theory as another field of science where similar techniques involving the density matrices and the corresponding entropies are used. Although the difficulties arising from the quantum mechanical structure present in the statistical physics have been recognized ...