Magnetic-Field Induced Enhancement in the Fluorescence Yield Spectrum

... detail we use MQDT. The calculation proceeds in a manner somewhat similar to the calculation of FY in a static electric field [9]. We use the 0-field K matrices and dipole matrix elements as input into a procedure that incorporates the full effect of the magnetic field. The 0-field channels with dif ...

Quantum Information and Spacetime

... k BTblack hole = c / 4π Rblack hole Since the radiation really arises from quantum fluctuations just outside the horizon, its properties don’t depend on how the black hole was formed. ...

Fermionic Vortices Find their Dual - Physics (APS)

... Humans are not very good at understanding interacting many-body systems. We understand the behavior of free particles and can sometimes use perturbation theory to incorporate weak interactions between them. But what happens when we couple the particles strongly? To reveal the interesting collective ...

Few-Particle Effects in Semiconductor Quantum Dots: Spectrum Calculations on

... It is very interesting to probe the rotational symmetry of semiconductor quantum dots for quantum information and quantum computation applications. We studied the effects of rotational symmetry in semiconductor quantum dots using configuration interaction calculation. Moreover, to compare with the e ...

10 Wave Functions of Lonely Electrons - KSU Physics

... Unfortunately, such a wave function does not just “pop out” as a solution to Schrödinger’s Equation. So we must learn to build it from other solutions. The ability of waves to interfere both constructively and destructively enables us to combine several different waves to create waveforms with usefu ...

MATHEMATICAL HISTORY OF WAVE AND MATRIX QUANTUM

... fundamental memoir, ‘On the constitution of atoms and molecules’, published in three parts in the Philosophical Magazine. Bohr’s atomic theory emerged from an endeavor to explain the properties of chemical elements on the basis of Rutherford’s planetary model of atoms. While the most obvious propert ...

Book of Abstracts

Z2 Topological Order and the Quantum Spin Hall Effect

... eigenstates on each edge. Since T symmetry prevents the mixing of Kramers’ doublets these edge states are robust against small perturbations. The gapless states thus persist even if the spatial symmetry is further reduced [for instance, by removing the C3 rotational symmetry in (1)]. Moreover, weak ...

Quantum - National Physical Laboratory

Atomic Structure - Talking Electronics

... be completely or partially filled. For instance, in case of inert gases, the valence band is full whereas for other materials, it is only partially filled. The partially filled band can accommodate more electrons. (ii) Conduction band. In certain materials (e.g. metals), the valence electrons are lo ...

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About possible extensions of quantum theory

Electric Charge in an Electric Field

IOSR Journal of Electronics and Communication Engineering (IOSR-JECE)

... tunneling theory .The quantum mechanical thought state that all matters include electron behave likes both particle as well as wave. The quantum mechanical investigation in which wave nature of electron is emphasizing and becomes essential if the magnitude of the potential is comparable to the wavel ...

Generating Entanglement and Squeezed States of Nuclear Spins in Quantum Dots

... bath can be turned into a resource, serving as a long-lived quantum memory [19–21], or a medium for high-precision magnetic field sensing [22]. Here we describe a coherent spin squeezing mechanism for gate-defined quantum dots [23], see Fig. 1(a). With suitable modification, our approach can also be ...

A Functional Architecture for Scalable Quantum Computing

... usual Pauli matrices. The rotation angle θ may be implemented to high enough accuracy that gates are decoherence limited, i.e., it suffices to consider θ as exactly accurate, but with a limited gate fidelity due to finite qubit lifetimes. In practice a limited set of gates from this class are chosen ...

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... communication rests, admits to only two possible states: a classical on-off system must be in either state 0 or state 1, representing a single bit of information. Quantum mechanics is quite different. A two-level quantum system—the reader unfamiliar with basic quantum mechanics should consult the Ap ...

Lecture 4: Quantum states of light — Fock states • Definition Fock

... Fock states, definition: So far, we have concentrated on introducing operators for the vector potential and thus the electric field. We have found that the quantized free electromagnetic field is an infinite collection of uncoupled harmonic oscillators, each of which is described by a Hamiltonian Ĥλ = ...

Coupling a single electron to a Bose

Lecture Notes: Condensed Matter Theory I (TKM1)

... Here rj (Rl ) refers to the coordinates of the Ne (Ni ) electrons (nuclei) with mass m (Ml ). Zl is the corresponding nuclear charge. The wave function depends in …rst quantization on all coordinates (r1 ; ...

Dirac`s Equation and the Sea of Negative Energy

Reflections on Friction in Quantum Mechanics

Stimulated Raman adiabatic passage as a route to achieving optical... Maxim Sukharev and Svetlana A. Malinovskaya

... scheme for optical control, we perform a series of simulations calculating transmission, T , and reflection, R, coefficients of an atomic layer before and after STIRAP. Figure 5 shows both sets of data. Before STIRAP pulse sequence partially inverts the atoms, the system has two reflection maxima near ...

this essay - u.arizona.edu

... source, and thereby permit reliable statistical inferences about the measured behavior of such silver atoms in other kinds of experiments. The outcome does not reveal a prior state for an individual silver atom, but the frequencies in the outcome do give information about the prior state in which th ...

FREE Sample Here

... 7) Molybdenum has an atomic number of 42. Several common isotopes exist, with mass numbers from 92-100. Therefore, which of the following can be true? A) Molybdenum atoms can have between 50 and 58 neutrons. B) Molybdenum atoms can have between 50 and 58 protons. C) Molybdenum atoms can have between ...

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Hydrogen atom

A hydrogen atom is an atom of the chemical element hydrogen. The electrically neutral atom contains a single positively charged proton and a single negatively charged electron bound to the nucleus by the Coulomb force. Atomic hydrogen constitutes about 75% of the elemental (baryonic) mass of the universe.In everyday life on Earth, isolated hydrogen atoms (usually called ""atomic hydrogen"" or, more precisely, ""monatomic hydrogen"") are extremely rare. Instead, hydrogen tends to combine with other atoms in compounds, or with itself to form ordinary (diatomic) hydrogen gas, H2. ""Atomic hydrogen"" and ""hydrogen atom"" in ordinary English use have overlapping, yet distinct, meanings. For example, a water molecule contains two hydrogen atoms, but does not contain atomic hydrogen (which would refer to isolated hydrogen atoms).

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Hydrogen atom