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... 1) Electron confined in an atom should also behave like a wave. x,y,zr,  2) No fixed orbits but electron density distribution 3) For 3-D, we need three quantum numbers n, l, ml ...

6. String Interactions

Two-Center Gaussian potential well for studying light nucleus in

... well (Fig. 2a) can describe their energy levels. But in light nucleus with almost half full shells N=2, the nucleons have been observed to cluster structure with a two-center structure. For example 8Be isotope at the ground state has two alpha cluster structure and decays to alpha particles by 92 ke ...

Quantum Programming Languages: Survey and Bibliography

Superluminal Quantum Models of the Photon and Electron

... continuous path in an atom. Also known as the "magnetic electron", "plasmoid ring", "vortex ring", or "helicon ring". Parson’s magneton model for chemical bonding and electron sharing influenced chemist Gilbert N. Lewis (who coined the name “photon” in 1926) to propose chemical bonding rules for ato ...

The Cosmological Constant From The Viewpoint Of String Theory

AJP Journal

Measurement and assignment of the size-dependent

PDF 2

... The H atom is an example of applying the Schrödinger equation to solve the energy of the electron in a central potential. The solution can also be used for other one electron systems. It is the only physical system for which a full solution for the wavefunction is possible, excluding spin. The H at ...

Maximum Probability Domains for Hubbard Models

Publications

... J R Smith, J Degallaix, A Freise, H Grote, M Hewitson, S Hild, H Lück, K A Strain and B Willke Measurement and simulation of laser power noise in GEO 600 Classical and Quantum Gravity 25 No 3 (7 February 2008) 035003 (12pp) S Hild, H Grote, M Hewitson, H Lück, J R Smith, K A Strain, B Willke and K D ...

ppt

Phys. Rev. Lett. 115, 155302

... For finite particle numbers the system is in the droplet state. In order to study its density profile and lowlying excitations qffiffiffiffiffiffiffiffi we simplify the problem by setting ð0Þ Ψi ðr; tÞ ¼ ni ϕðr; tÞ, where ϕðr; tÞ is a scalar wave function [16]. This assumption neglects possible relative motion of t ...

Locally critical quantum phase transitions in strongly

... manifests itself as an interaction between these quasiparticles, leading to a spin-density-wave instability which drives the transition22. As a result, the dynamical spin susceptibility has the form as in the traditional theory13,14. We ®nd this type of QCP when the spin ¯uctuations are three-dimens ...

Do we really understand quantum mechanics?

... associating a wave with every material particle; this was soon proven to be correct by Davisson and Germer in their famous electron diffraction experiment. Nevertheless, for some reason, at that time de Broglie did not proceed much further in the mathematical study of this wave, so that only part of ...

On-site correlations in optical lattices: Band mixing

Tonks–Girardeau gas of ultracold atoms in an optical lattice

Antiresonance and interaction-induced localization in spin and qubit chains with defects

... amplitude of the BP wave is C1 = 0, to zeroth order in −1 . This happens even though the BP on sites (n0 + 1, n0 + 2) has a large amplitude A ≈ 2i sin θ2 . The vanishing of the BP wave is a result of destructive interference, or antiresonance, as seen from the first of equations (5). The BP wave is ...

A Dialogue Between Contemporary

... understanding of something assumed true. In other words, the one-hundred trillionth digit of π may be a mystery to mathematicians presently, but we possess the conceptual tools and technology to access it eventually, making this nothing but a classical mystery. A true conceptual mystery is one such ...

Lectures - University of Toronto Physics

Quantum Physics and the Holy Grail BRIAN JOHN PICCOLO

... information has come from these spiritual impulses, and many branch-like movements have sprung from them. It is from this occult information that we shall glean our basic understanding of these issues. What we must first realize is that as humanity develops and evolves, so does the solar system and ...

Quantum electrical transport in samples of limited

Quantum telecommunication with atomic ensembles

... the DLCZ protocol in which a write laser field with ␴+ polarization scatters a ␴+ signal photon, thereby causing an atom to make a transition from the initially prepared g , m = 0 hyperfine substate to the g⬘ , m = 2 state of the other hyperfine ground level via level e, as shown in Figs. 1 and 5. T ...

A Formal Cause Beyond Space and Time

... and is absorbed and emitted continuously by bodies. Planck, nevertheless, does not intend to question the concept of wave and the continuity of space. His law demonstrates that energy is only absorbed and emitted as discrete packets, but energy does not travel in space in the form of particles. The ...

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Canonical quantization

In physics, canonical quantization is a procedure for quantizing a classical theory, while attempting to preserve the formal structure, such as symmetries, of the classical theory, to the greatest extent possible.Historically, this was not quite Werner Heisenberg's route to obtaining quantum mechanics, but Paul Dirac introduced it in his 1926 doctoral thesis, the ""method of classical analogy"" for quantization, and detailed it in his classic text. The word canonical arises from the Hamiltonian approach to classical mechanics, in which a system's dynamics is generated via canonical Poisson brackets, a structure which is only partially preserved in canonical quantization.This method was further used in the context of quantum field theory by Paul Dirac, in his construction of quantum electrodynamics. In the field theory context, it is also called second quantization, in contrast to the semi-classical first quantization for single particles.

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Canonical quantization