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FERMI-HUBBARD PHYSICS WITH ATOMS IN AN OPTICAL LATTICE1
FERMI-HUBBARD PHYSICS WITH ATOMS IN AN OPTICAL LATTICE1

Maritime Applications of Quantum Computation
Maritime Applications of Quantum Computation

... and as in classical computer science, in quantum computing we have sets of quantum gates for universal quantum computation [97], [98]. Hence, a quantum algorithm can be built as a sequence of quantum gates, i.e. the execution of a quantum algorithm is equivalent to transforming initialized qubits |ψ ...
Lecture #8
Lecture #8

... uncertainty in energy and are thus sharpest. For similar types of transitions the line width depends on the stability of the upper level. In the emission of light from an excited molecule, if the higher energy state is stable it will have a long lifetime and a small energy spread leading to sharp li ...
Torque and Angular Momentum - McGraw Hill Higher Education
Torque and Angular Momentum - McGraw Hill Higher Education

... masses is the elevator and the other is the counterweight. Of course, the elevator and counterweight are not allowed to hang freely from a pulley—we must also consider the energy supplied by the motor. ...
Lecture #8
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Free Energies of Cavity and Noncavity Hydrated Electrons at the
Free Energies of Cavity and Noncavity Hydrated Electrons at the

... SHG signal originating from hydrated electrons, but the kinetics of the observed signal matched that of bulk hydrated electrons.22 Furthermore, these authors were only able to determine that the hydrated electrons resided <1 nm from the interface. Because 1 nm is roughly three water molecular diamet ...
The Symplectization of Science - Pacific Institute for the
The Symplectization of Science - Pacific Institute for the

... Physics is geometry. This dictum is one of the guiding principles of modern physics. It largely originated with Albert Einstein, whose most important contribution–via his General Theory of Relativity–was to view the phenomenon of gravity as a reflection of the curvature of the geometry of spacetime. ...
Matter wave interferences of potassium molecules and the influence
Matter wave interferences of potassium molecules and the influence

Mean spin direction and spin squeezing in superpositions of spin
Mean spin direction and spin squeezing in superpositions of spin

Introduction to Quantum Information and Computation for Chemistry
Introduction to Quantum Information and Computation for Chemistry

Unit V Review Solutions - Hilltop Jr/Sr High School
Unit V Review Solutions - Hilltop Jr/Sr High School

Quantum Computation with Nuclear Spins in Quantum Dots
Quantum Computation with Nuclear Spins in Quantum Dots

Physical Science Physics - Department of Basic Education
Physical Science Physics - Department of Basic Education

Hyperfine interaction and spin decoherence in quantum dots
Hyperfine interaction and spin decoherence in quantum dots

Measurement-based and Universal Blind Quantum Computation
Measurement-based and Universal Blind Quantum Computation

Nonradiative electron and energy transfer. Explicit
Nonradiative electron and energy transfer. Explicit

... only a few modes have non-zero values of the Huang–Rhys factor or contribute more to the non-adiabatic couplings. Therefore, they keep their coherent character longer than the rest of the modes of a vibrational manifold. Moreover, it was calculated that even in QaAS quantum dot systems, consisting o ...
ןב תטיסרבינוא - בגנב ןוירוג
ןב תטיסרבינוא - בגנב ןוירוג

... structure, and often introduces a spin splitting of bands. 23 The final result can often be written as an effective SOI Hamiltonian, of the general form HSO = (~kSO /m)(π · σ), where π is a linear combination of the electron momentum components px and py and m is the effective mass, usually much sma ...
Neutral Atom Quantum Computing with Rydberg Blockade
Neutral Atom Quantum Computing with Rydberg Blockade

Computational power of quantum many
Computational power of quantum many

Damping Ring Lecture I - International Linear Collider
Damping Ring Lecture I - International Linear Collider

... Solutions to Hill’s Equation Some introductory comments about the solutions to Hill’s equations: – The solutions to Hill’s equation describe the particle motion around a reference orbit, the closed orbit. This motion is known as betatron motion. We are generally interested in small amplitude motion ...
Quantum walk  search on satisfiability problems random
Quantum walk search on satisfiability problems random

... and David Deutsch in the 1980's, quantum computing remained little more than a curiosity until Peter 8hor's discovery of a polynomial time integer factorization algorithm in 1994 and Lov Grover's subsequent development of a quantum search algorithm in 1996 [13, 12, 29, 14]. The discovery of these pr ...
I. Results from Prior NSF Support
I. Results from Prior NSF Support

Thermodynamics of black holes
Thermodynamics of black holes

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... Copyright © 2008 Pearson Education, Inc., publishing as Pearson Addison-Wesley. ...
Lindblad theory of dynamical decoherence of quantum-dot excitons P. R. Eastham,
Lindblad theory of dynamical decoherence of quantum-dot excitons P. R. Eastham,

... zero-phonon line (ZPL) and sidebands associated with one or many phonon events. At 4 K (the temperature considered for pulse optimization below), the ZPL contains 86% of the spectral weight. If the Markovian approach we use is applied in the limit of weak driving (outside the range of validity as di ...
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Theoretical and experimental justification for the Schrödinger equation

The theoretical and experimental justification for the Schrödinger equation motivates the discovery of the Schrödinger equation, the equation that describes the dynamics of nonrelativistic particles. The motivation uses photons, which are relativistic particles with dynamics determined by Maxwell's equations, as an analogue for all types of particles.This article is at a postgraduate level. For a more general introduction to the topic see Introduction to quantum mechanics.
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