Quantum and Classical Magnetoresistance in Ambipolar Topological Insulator Transistors with

... TIs do not show such quantum oscillations because of disorder or inhomogeneity. Instead two other MR features have been commonly used in a large number of experiments to probe the transport signature of TSS: the weak antilocalization (WAL) at low magnetic (B) field19–29 and linear MR (LMR)30–34 at h ...

7 Quarks and SU(3) Symmetry

... By 1960 a great number of particles (which decay weakly) and resonances (which decay strongly) had been discovered. Some are seen in production reactions, where they are produced along with other final-state particles (such as the ω meson in pp̄ → π + π − ω), others in formation reactions, where the ...

URL - StealthSkater

... maximal for subsystems in the sense that density matrix is proportional to a projection operator. Quantum monogamy could be highly relevant for the understanding of living matter. Biology is full of binary structures (DNA double strand, lipid bi-layer of cell membrane, epithelial cell layers, left a ...

Quantum information processing at the cellular level

... because it implies that all macroscopic objects are classical and thus cannot have any nontrivial quantummechanical behavior. I suggest we take a different perspective, where any object (no matter how large or small) can have some classical properties, but also some quantum properties. It is well es ...

Quantum Information Meets Quantum Matter

Lectures on Arithmetic Noncommutative Geometry Matilde Marcolli

... For sufficiently nice quotients, even though the two notions are not the same, they are related by Morita equivalence, which is the suitable notion of “isomorphism” between noncommutative spaces. For more general quotients, however, the two notions truly differ and the second one is the only one tha ...

Localized - Current research interest: photon position

Lectures on Random Schrödinger Operators

A practical guide to density matrix embedding

... therefore been the development of computationally feasible and accurate correlated methods. This problem has been explored in the contexts of nuclear structure, condensed matter, and quantum chemistry, quite often with significant cross-fertilization. Methods such as coupled-cluster theory, 1–3 the ...

4, 2710 (2013)

... with opposite momenta k and k (denoted as Bardeen-CooperSchrieffer (BCS) pairing hereafter). On the other hand, the superconducting pairing can also occur between fermions with ﬁnite total momenta (pairing between k and k þ Q) in the presence of a Zeeman ﬁeld, leading to spatially modulated supe ...

LIGO Magazine, issue 3, 9/2013 - LIGO Scientific Collaboration

... 200 Mpc should give at least ~1 BNS detection per year even under pessimistic predictions of event rates. This will happen in 2019, but it’s likely we’ll have detections much earlier. We are indeed working hard on this goal, and we are making very good progress. The installation of the Advanced LIGO ...

PHYS - Auburn University Bulletin

... PHYS 7950 PHYSICS COLLOQUIUM (1) SEM. SU. Offers a series of talks presented by invited speakers on broad fields of physics. Check with graduate advisor for credit allowed. Course may be repeated for a maximum of 6 credit hours. PHYS 7970 SPECIAL TOPICS IN PHYSICS (1-5) SEM. Seminar or lecture serie ...

Charged domain walls as quantum strings on a - Instituut

... Recently, experimental evidence has been accumulating that the doped holes in the high-T c cuprate superconductors form domain walls separating antiferromagnetic domains. These so-called stripes are linelike objects and if these persist in the superconducting state, high-T c superconductivity is rel ...

Breakdown of NRQCD Factorization

... 2. Recent Result at two-loop level (and the motivation of our work) The key point to explain production rates at Tevatron is by adding the gluon fragmentation into a heavy quark pair in color octet. For the gluon fragmentation function one also has the factorization shown before. At parton level to ...

PDF

... takes into account the non-instantaneous nonlinear response of the medium and the requisite addition of noise caused by this non-instantaneous nonlinear response.10, 11 This work also provides analytical expressions for the noise ﬁgure of χ(3) phase-insensitive parametric ampliﬁers10 and wavelength ...

Quantum Field Theory in Condensed Matter Physics 2nd Ed.

... has learnt elsewhere. Therefore discussion of the traditional methods is rather brief, and is targeted primarily at the aspects of these methods which are relevant to nonperturbative applications. The general strategy of the book is to show how the strong interaction arises in various parts of QFT. ...

Entanglement in many body quantum systems Arnau Riera Graells

... Els gasos ultra-freds permeten una observació controlada de molts dels fenòmens físics que han estat estudiats en Matèria condensada. Els atoms poden ser atrapats, refredats i manipulats amb camps electro-magnètics externs, permetent modificar els paràmetres físics que controlen el seu comportament ...

A Short Course on Topological Insulators

How to remove the spurious resonances from ring polymer molecular... Mariana Rossi, Michele Ceriotti, and David E. Manolopoulos

Appendix A: Integrator Programs - IDEALS @ Illinois

... Symplectic integrators are well known for preserving the phase space volume in Hamiltonian dynamics and are particularly suited for problems that require long integration times. There is a general operator splitting method for developing explicit symplectic integration algorithms to any arbitrary ev ...

Light-Matter Interaction: Fundamentals and

A CATEGORY THEORY AND HIGHER DIMENSIONAL ALGEBRA

... logical foundations of computer science [1],[194],[197],[201]. We shall thus employ the adjective “ontological” with the meaning of pertaining to objective, real existence in its essential aspects. We shall also consider here the noun existence as a basic, or primary concept which cannot be defined ...

arXiv:1210.1847v1 [hep-ph] 4 Oct 2012

... the universe that we currently inhabit is a numerical simulation performed by our distant descendants [1]. With the current developments in HPC and in algorithms it is now possible to simulate Quantum Chromodynamics (QCD), the fundamental force in nature that gives rise to the strong nuclear force a ...

Entanglement in the anisotropic Heisenberg XYZ model with

... have been intensively studied, especially in thermal entanglement and quantum phase transition. Very recently, F. Kheirandish et al. and Z. N. Gurkan et al. [12] discussed the Heisenberg XYZ model with DM interaction (arising from spin-orbit coupling) and magnetic field. However, almost all the dire ...

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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