73 013601 (2006)

001 Introduction to Quantum Mechanics, Probability Amplitudes and

... this is the fundamental cornerstone of quantum mechanics and our civilisation quite simply depends on quantum mechanics because we’re all busy communicating with each other using electronics that has been designed using quantum mechanics. So it’s – of course there are particular, specific experiment ...

Quantum Algorithms for Estimating Gauss Sums and Calculating

Implementation of a Toffoli gate with superconducting circuits

... We have characterized the performance of this realization of a Toffoli gate by measuring the truth table, by full process tomography28 and by Monte Carlo process certification29,30. The truth table depicted (Fig. 2) shows the population of all computational basis states after applying the Toffoli ga ...

Art Hobson There are no particles, there are only fields 1

... probability amplitude that, upon measurement at time t, the presumed particle "will be found" at the point x0. Another suggestion, still in accord with the Copenhagen interpretation but less confining, would be that Ψ(x0,t) is the probability amplitude for an interaction to occur at x0. This preserv ...

Bell-like inequalities from symmetrized products of noncommuting

Entangled State Quantum Cryptography

Secure Multi-party Quantum Computation

... any t < n/4 cheating parties (out of n). This is shown to be optimal. We use this new tool to show how to perform any multi-party quantum computation as long as the number of dishonest players is less than n/6. ...

Toposes and categories in quantum theory and gravity

Orbital angular momentum

Pauline Oliveros and Quantum Sound

... change, all structures come to be understood in completely new ways. David Bohm discusses, for instance, radical changes in language structure, necessitated by the fact that language as constructed within the framework of a classical physics worldview is by necessity itself atomistic and fragmentary ...

Quantum computing implementations with neutral

Reversible Classical Circuits and the Deutsch

High-order impulse approximation for calculating pulsed-field recombination F. Robicheaux

... lower principal quantum numbers than might be expected. Although classical methods should be accurate in many cases, quantum calculations should also be performed whenever possible. If both types of calculations are possible, this provides a double check on the theory since a quantum calculation doe ...

Ensemble Learning

... is usually much stronger than that of base learners. Actually, ensemble learning is appealing because that it is able to boost weak learners which are slightly better than random guess to strong learners which can make very accurate predictions. So, “base learners” are also referred as “weak learner ...

Quantum Evolution installation and user manual

Frustrated Quantum Magnetism with Laser-Dressed Rydberg Atoms

Distinguishing mixed quantum states: Minimum

Tunneling Through a Potential Barrier - EMU I-REP

... because it is manifestly symmetric between time and space. Unlike previous methods, the path-integral allows a physicist to easily change coordinates between very different canonical descriptions of the same quantum system. The path integral also relates quantum and stochastic processes, and this pr ...

Multiphoton adiabatic rapid passage: classical transition induced by separatrix crossing

... transitions out of the initial state and into the final state. The frequency 14.5 GHz exactly matches the classical Rydberg frequency for n = 76.8 which is roughly half-way between the initial and final states. In this paper, we present the results of fully quantum calculations for this system. We n ...

Capacitive Coupling of Atomic Systems to Mesoscopic Conductors

The measure of existence of a quantum world and the Sleeping

... Our method can be applied to other variations of SBP. For example, in Bradley’s (2011) ‘Technicolour’ SBP, in addition to the original procedure, Beauty is shown a coloured flag upon each awakening. For Heads, Red or Blue are shown at random with equal probabilities. For Tails, Red is shown on Monda ...

From Markovian semigroup to non

Quintet pairing and non-Abelian vortex string in spin-3/2 cold atomic... Congjun Wu, Jiangping Hu, and Shou-Cheng Zhang

... triplet superfluid of the 3 He-A phase [12, 13], where the spin SU (2) symmetry is broken into the U (1) symmetry around the z-axis. A remarkable property is that both quasi-particles and spin wave excitations reverse the sign of their spin quantum numbers sz when going through the HQV loop. Meanwhi ...

What you always wanted to know about Bohmian mechanics but

... Bohmian mechanics was rst developed by Louis de Broglie! Therefore we will use the name de Broglie-Bohm theory in the remainder of this paper. Some basic concepts of the theory were already anticipated in de Broglie's dissertation in 1924 and his talk on the 5th Solvay meeting in October 1927 con ...

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Quantum machine learning

Quantum machine learning is a newly emerging interdisciplinary research area between quantum physics and computer science that summarises efforts to combine quantum mechanics with methods of machine learning. Quantum machine learning models or algorithms intend to use the advantages of quantum information in order to improve classical methods of machine learning, for example by developing efficient implementations of expensive classical algorithms on a quantum computer. However, quantum machine learning also includes the vice versa approach, namely applying classical methods of machine learning to quantum information theory.Although yet in its infancy, quantum machine learning is met with high expectations of providing a solution for big data analysis using the ‘parallel’ power of quantum computation. This trend is underlined by recent investments of companies such as Google and Microsoft into quantum computing hardware and research. However, quantum machine learning is still in its infancy and requires more theoretical foundations as well as solid scientific results in order to mature to a full academic discipline.

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Quantum machine learning