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PDF only - at www.arxiv.org.
... macroscopic objects? The correspondence principle is taken to provide the justification here. According to this principle, in the limit in which the Planck's constant is negligible compared to the quantities being measured, and this is generally the level of macroscopic bodies, the quantum mechanica ...
... macroscopic objects? The correspondence principle is taken to provide the justification here. According to this principle, in the limit in which the Planck's constant is negligible compared to the quantities being measured, and this is generally the level of macroscopic bodies, the quantum mechanica ...
A Modular Method for the Efficient Calculation of Ballistic Transport
... Most theoretical investigations on quantum billiards focus on the two limiting cases of systems with either purely chaotic or purely regular classical dynamics [12]. However, neither of these cases is generic. For the semiconductor quantum dots that are realized in the experiment [4] a classical pha ...
... Most theoretical investigations on quantum billiards focus on the two limiting cases of systems with either purely chaotic or purely regular classical dynamics [12]. However, neither of these cases is generic. For the semiconductor quantum dots that are realized in the experiment [4] a classical pha ...
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Book of Abstracts
... Searching for violations of Lorentz invariance has been a major focus of quantum gravity phenomenology for over a decade. This focus is primarily due to two factors: increased observational sensitivity and a spurt of quantum gravity models that do not respect the local spacetime symmetries familiar ...
... Searching for violations of Lorentz invariance has been a major focus of quantum gravity phenomenology for over a decade. This focus is primarily due to two factors: increased observational sensitivity and a spurt of quantum gravity models that do not respect the local spacetime symmetries familiar ...
Microscopic simulations in physics - University of Illinois Urbana
... Lennard-Jones (6-12) are needed for problems in biophysics and in semiconductor systems. There are not enough high-quality experimental data to use to parametrize these potentials even if the functional form of the interaction were known. In addition, some of the most important and interesting moder ...
... Lennard-Jones (6-12) are needed for problems in biophysics and in semiconductor systems. There are not enough high-quality experimental data to use to parametrize these potentials even if the functional form of the interaction were known. In addition, some of the most important and interesting moder ...
PDF only - at www.arxiv.org.
... what is it that has the role of the Cooper pair whose alignment is responsible for superconductivity? No form of matter identified so far provides a suitable candidate[3]. In Universe physics, it has been suggested that it may indeed be helpful if there exists no parameter-free fundamental physics t ...
... what is it that has the role of the Cooper pair whose alignment is responsible for superconductivity? No form of matter identified so far provides a suitable candidate[3]. In Universe physics, it has been suggested that it may indeed be helpful if there exists no parameter-free fundamental physics t ...
Information Processing with Quantum Gravity
... space-time geometry has a deterministic causality structure [1-4]. The meaning of time evolution is also nonvanishing and has an interpretable notion in the microscopic world of quantum mechanics. It is precisely the reason why classical and quantum computations are evolved by a sequence of time ste ...
... space-time geometry has a deterministic causality structure [1-4]. The meaning of time evolution is also nonvanishing and has an interpretable notion in the microscopic world of quantum mechanics. It is precisely the reason why classical and quantum computations are evolved by a sequence of time ste ...
Feynman lectures on computation
... • The unitary transformation U consists of a series of elementary quantum gates, single-, two-qubit... • The sequence of these quantum gates that are applied to the quantum input depends on the classical variables x and N complicatedly. • We need a classical computer processes the classical variable ...
... • The unitary transformation U consists of a series of elementary quantum gates, single-, two-qubit... • The sequence of these quantum gates that are applied to the quantum input depends on the classical variables x and N complicatedly. • We need a classical computer processes the classical variable ...
The role of Chern Simons theory in solving the fractional quantum
... • It gives a new physical understanding. The 1/3 state is seen as one filled quasi-Landau level of composite fermions carrying two vortices. • It clarifies that this state belongs to a more general structure with an immense amount of other physics in it. • It also takes us beyond wave functions! The ...
... • It gives a new physical understanding. The 1/3 state is seen as one filled quasi-Landau level of composite fermions carrying two vortices. • It clarifies that this state belongs to a more general structure with an immense amount of other physics in it. • It also takes us beyond wave functions! The ...