Spin-Orbit Interactions in Topological Insulators

... The central concepts in this Master thesis is spin orbit induced topological insulators1 , RKKY interaction and spin-orbit effects. Spin orbit induced topological insulators are a new class of materials that recently has been theoretically predicted and produced in laboratory. An overview of topolog ...

Magnetic polyoxometalates: from molecular magnetism to molecular spintronics and quantum computingw

Do relations require underlying intrinsic properties? A physical

M. Sc. Courses in Physics (Session 2016

... statistical definition of thermodynamic quantities, computation of partition functions of some standard systems. Unit-II: Statistical Properties System of linear harmonic oscillators in the canonical ensemble; grand canonical ensemble and its partition function; chemical potential; Partition functio ...

Unifying Classical and Quantum Key Distillation

Kazakov - From Sigma Models to Four-dimensional QFT

... Baxter’s TQ and QQ operatorial relations and nested Bethe ansatz equations from new Master identity. Wronskian solutions of Hirota eq. ...

Twisted Equivariant Matter - Rutgers Physics

Phys. Rev. A 92, 032304

... bonds and nodes of the cluster can be erased by means of measurement and feedforward, applying the quantum eraser [13]. For example, the three-mode linear cluster state shown at the top in Fig. 1(a), which is the resource state for our demonstration of the tunable entangling gate, has bonds (C1-C2) ...

Fundamental aspects of quantum Brownian motion

... Without doubt, quantum fluctuations constitute a prominent noise source in many nanoscale and biological systems. For example, the tunnelling and the transfer of electrons, quasiparticles, and alike, is assisted by noise for which the quantum nature cannot be neglected. The features of this noise ch ...

Basic Notions of Entropy and Entanglement

Duncan-Dunne-LINCS-2016-Interacting

... F_ + F_ each more closely resembling quantum theory than its predecessor. The first is simply the disjoint union of two non-interacting observables. The second requires that the observables be strongly complementary; this means their corresponding Frobenius algebras jointly form a Hopf algebra [13, ...

Braid Topologies for Quantum Computation

Quantum field theory and Green`s function

Chapter 6 Groups and Representations in Quantum Mechanics

... derived from the symmetry properties of the Hamiltonian, it can be accomplished without having to solve the Schrödinger equation. Among the most historically important of such applications is the classification of atomic spectral lines. The atomic Hamiltonian is comprised of the sum of the kinetic ...

How Quantum Theory Helps Us Explain

Leftover Hashing Against Quantum Side Information

... Quantum versions of the Leftover Hash Lemma [12] for twouniversal families of hash functions have been used in the context of privacy amplification against a quantum adversary [13], [10]. This application has gained prominence with the rise of quantum cryptography and quantum key distribution in par ...

5.7. time-reversal symmetry for spin-1/2 and Kramers

Computational power of quantum many

Conclusive exclusion of quantum states

Avoiding Ultraviolet Divergence by Means of Interior–Boundary

A Quon Model

... In case a quon is a qudit of degree d, one has a simple representation for a 1-quon basis: the interior of a hemisphere contains two charged strings, each linking two of the output points. The value of the charge on one sting may equal either 0, 1, . . . , d − 1 ∈ Zd , while the other string carries ...

Review on Nucleon Spin Structure

... • It seems there are two contradictions between these two results: 1.The DIS measured total quark spin contribution to nucleon spin is about one third while the quark model one is 1; 2.The DIS measured strange quark contribution is nonzero while the quark model one is zero. ...

The quantum phases of matter - Subir Sachdev

Single-exciton spectroscopy of single Mn doped InAs quantum dots

... sition 共X0A0 → A0兲 PL spectrum with five peaks with different intensities at zero applied field instead of the six almost identical peaks in CdTe. The presence of the acceptor hole also opens an additional optical recombination channel: the band-to-acceptor transition 共X0A0 → h+A−兲, such that the co ...

Superconducting Circuits and Quantum Computation T. P. Orlando

... Superconducting circuits are being used as components for quantum computing and as model systems for non-linear dynamics. Quantum computers are devices that store information on quantum variables and process that information by making those variables interact in a way that preserves quantum coherenc ...

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Bell's theorem

Bell's theorem is a ‘no-go theorem’ that draws an important distinction between quantum mechanics (QM) and the world as described by classical mechanics. This theorem is named after John Stewart Bell.In its simplest form, Bell's theorem states:Cornell solid-state physicist David Mermin has described the appraisals of the importance of Bell's theorem in the physics community as ranging from ""indifference"" to ""wild extravagance"". Lawrence Berkeley particle physicist Henry Stapp declared: ""Bell's theorem is the most profound discovery of science.""Bell's theorem rules out local hidden variables as a viable explanation of quantum mechanics (though it still leaves the door open for non-local hidden variables). Bell concluded:Bell summarized one of the least popular ways to address the theorem, superdeterminism, in a 1985 BBC Radio interview:

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Bell's theorem