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CT-Invariant Quantum Spin Hall Effect in Ferromagnetic Graphene
CT-Invariant Quantum Spin Hall Effect in Ferromagnetic Graphene

... In the years since the spin Hall effect (SHE) has been discovered, it has generated great interest [1–4]. In the SHE, an applied longitudinal charge current or voltage bias induces a transverse spin current due to the spindependent scatterings [1,2] of the spin-orbit interaction (SOI) [3]. Soon afte ...
Spin-valley lifetimes in a silicon quantum dot with tunable valley
Spin-valley lifetimes in a silicon quantum dot with tunable valley

... separated from higher excitations. In this respect, a major challenge for the use of silicon is represented by the multi-valley nature of its conduction band. In a bulk silicon crystal the conduction band minima are six-fold degenerate, but in a twodimensional electron gas (2DEG), the degeneracy is ...
High Energy Physics (3HEP) - Physics
High Energy Physics (3HEP) - Physics



... locations or nodes by means of single photons traveling qubits, which are guided through waveguides. Interestingly, this coherent interface, which is responsible for the state of the storage qubits to be mapped onto the traveling qubits or the entanglement between them, is itself a qubit system, t ...
Ice, spin ice and spin liquids  lecture April 16, 2013
Ice, spin ice and spin liquids lecture April 16, 2013

... soluble Rokhsar-Kivelson (RK) point g = µ, where the ground-state wave is an equally-weighted sum of all possible ice (dimer) configurations.49 The authors then argued, by continuity, that a quantum liquid phase would occur for a finite range of parameters µ # 1 bordering on the RK point.46,47 The m ...
QIPC 2011
QIPC 2011

NMR Spectroscopy: Principles and Applications
NMR Spectroscopy: Principles and Applications

... found in assemblies of large number of nuclei of atoms that possess both “magnetic moments” and “angular momentum” is subjected to external magnetic field. Resonance – Implies that we are in tune with a natural frequency of the nuclear magnetic system in the magnetic field. ...
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Second Quantization
Second Quantization

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pickettpresentationp..

Forays into Relativistic Quantum Information Science:
Forays into Relativistic Quantum Information Science:

... Not compatible with local, non-superluminal hidden variable theory. “Compatible” with QM, and no faster-than-light communication. But non-rel. QM not fully consistent (!) with Lorentz invariance and causal structure of spacetime. ...
On the Problem of Hidden Variables in Quantum Mechanics
On the Problem of Hidden Variables in Quantum Mechanics

... on the hidden variable problem: L. de Broglie, Physicien et Pensemr (Albin Michel, Paris, 1953); W. Heisenberg, in Xiels Bohr and the Development of Physics, W. Pauli, Ed. (McGraw-Hill Book Co. , Inc. , New York, and Pergamon Press, Ltd. , London, 1955); Observation and Interpretation, S. Korner, Ed ...
Optical control of the spin state of two Mn atoms... L. Besombes, C. L. Cao, S. Jamet,
Optical control of the spin state of two Mn atoms... L. Besombes, C. L. Cao, S. Jamet,

Structural, electric, and magnetic properties of Mn perovskites
Structural, electric, and magnetic properties of Mn perovskites

... The cooperative ordering of this Jahn-Teller distortion results in the corresponding magnetic, i.e. spin, order in a system from the semicovalent exchange interaction by Goodenough. [3] In this interaction, the semicovalent bond is described as the bond formed by overlapping between the empty hybrid ...
Chapter 42
Chapter 42

Report - IISER Pune
Report - IISER Pune

... where p is the momentum of the particle. The postulate given by Bohr can now be stated as; only those orbits are allowed, where the circumference is an integral multiple of the wavelength λ of the matter wave associated with the electron. Thus, the allowed orbits are those where stationary waves of ...
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gravitational interaction of fermions

The Mapping from 2D Ising Model to Quantum Spin Chain
The Mapping from 2D Ising Model to Quantum Spin Chain

Driven coherent oscillations of a single electron spin in a quantum dot
Driven coherent oscillations of a single electron spin in a quantum dot

Hidden Variable Theory
Hidden Variable Theory

... Quantum mechanics throws indeterminancy into act of measurement.2 This is often disturbing to people who learn from an early age that human beings were meant to classify and quantify everything in the universe. Even if we were to know everything there is to know about a particle, its state function, ...
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The Strong Free Will Theorem
The Strong Free Will Theorem

Classical World because of Quantum Physics
Classical World because of Quantum Physics

... I.e. the statistical mixture has a classical time evolution, if measurement and time evolution commute “on the coarse-grained level”. Given fuzzy measurements (or pre-measurement decoherence), it depends on the Hamiltonian whether macrorealism is satisfied. ...
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Chemistry in Four Dimensions
Chemistry in Four Dimensions

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Spin (physics)

In quantum mechanics and particle physics, spin is an intrinsic form of angular momentum carried by elementary particles, composite particles (hadrons), and atomic nuclei.Spin is one of two types of angular momentum in quantum mechanics, the other being orbital angular momentum. The orbital angular momentum operator is the quantum-mechanical counterpart to the classical notion of angular momentum: it arises when a particle executes a rotating or twisting trajectory (such as when an electron orbits a nucleus). The existence of spin angular momentum is inferred from experiments, such as the Stern–Gerlach experiment, in which particles are observed to possess angular momentum that cannot be accounted for by orbital angular momentum alone.In some ways, spin is like a vector quantity; it has a definite magnitude, and it has a ""direction"" (but quantization makes this ""direction"" different from the direction of an ordinary vector). All elementary particles of a given kind have the same magnitude of spin angular momentum, which is indicated by assigning the particle a spin quantum number.The SI unit of spin is the joule-second, just as with classical angular momentum. In practice, however, it is written as a multiple of the reduced Planck constant ħ, usually in natural units, where the ħ is omitted, resulting in a unitless number. Spin quantum numbers are unitless numbers by definition.When combined with the spin-statistics theorem, the spin of electrons results in the Pauli exclusion principle, which in turn underlies the periodic table of chemical elements.Wolfgang Pauli was the first to propose the concept of spin, but he did not name it. In 1925, Ralph Kronig, George Uhlenbeck and Samuel Goudsmit at Leiden University suggested a physical interpretation of particles spinning around their own axis. The mathematical theory was worked out in depth by Pauli in 1927. When Paul Dirac derived his relativistic quantum mechanics in 1928, electron spin was an essential part of it.
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