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... Here G T1 (r, V̂, t) is the unnormalized temporal field correlation function, which is a function of position r, direction V̂, and correlation time t. The scattering and the absorption coefficients are ms and ma , respectively, and m t 5 m s 1 m a . g 1 s (V̂, V̂ 8 , t ) is the normalized temporal f ...

ABSTRACT Title of Document:

... that time just joined the Department of Materials Science and Engineering at Maryland and was building his new lab. I remember he told me, “Once you find a goal, just do it. Too much thinking does not help anything.” I felt lucky that I joined his group later and had the opportunity to work on this ...

The Bit and the Pendulum (From Quantum Computing to M Theory)

Introduction to Modern Canonical Quantum General Relativity

... compactifications, no supersymmetry and its associated phenomenology – compatible spontaneous breaking at low energies, seem to be necessary. On the other hand, no explanation for the particle content and the dimension of the universe is provided by the theory. The requirement to preserve background ...

$Clustered states in the fractional quantum Hall effect$

Clustered states in the fractional quantum Hall effect

... approach on describing quantum Hall states. In this paper the author proposed to apply conformal field theory as a theoretical tool to probe the long-range physics present in the samples. It was in that same paper that the authors demonstrated an unorthodox procedure to obtain a new series of quantu ...

Quantum Knots and Lattices, or a Blueprint for Quantum Systems

Quantum dynamics in strong fluctuating fields - Physik Uni

Studies of Infinite Two-Dimensional Quantum Lattice

Slides - indico.jinr.ru – Indico

Renormalization group and the Planck scale

Monday, Nov. 20, 2006

... • When the parity is conserved, it can restrict decay processes that can take place. • Consider a parity conserving decay: AB+C – Conservation of angular momentum requires both sides to have the same total angular momentum J. – If B and C are spinless, their relative orbital angular momentum ( l ) ...

Quantum Information with Fermionic Gaussian States - Max

Universitat Autonoma de Barcelona Facultat de Ciencies, Departament de F sica

... Overview of quantum memories Research in the eld of quantum information science, which deals with communication and computation incorporating the laws of quantum mechanics, has lead to outstanding and promising discoveries. For instance, it has been shown that quantum cryptography can allow for secu ...

- Quantum Optics and Spectroscopy

... implementation faithfully, when error correction techniques are applied [12]. However, it was questionable whether such procedures could be applied to a quantum computer until Andrew Steane and Peter Shor developed an error correction framework for quantum computers in a milestone work in 1996 [13, ...

Quantum simulations with cold trapped ions

... formidable experimental challenges, in particular because of the low error thresholds required for fault-tolerant computing, it appears that useful quantum simulations are more amenable to experimental efforts. There are two common usages of the term ‘quantum simulation’: (i) the simulation of stati ...

Massachusetts Institute of Technology Spring 2014

... mechanics offered at MIT. In 8.06, each student was required to write a paper on a topic related to but going beyond the content of 8.06. The topic could be a physical effect, a practical application, or further development of techniques and concepts of quantum mechanics. The paper was written in th ...

Quantum networking with single ions and single photons interfaced in free space

... The quantum system of choice: single trapped ions Of all the physical systems listed above, single trapped atomic ions have come closest to complying with the DiVincenzo criteria, proving to be among the most promising candidates for future large-scale quantum-information processors [31, 32]. Atomic ...

HQ-1: Conference on the History of Quantum Physics Max Planck

... the History of Quantum Physics. This conference, held at the Max Planck Institute for the History of Science (July 2–6, 2007), has been sponsored by the Max Planck Society in honor of Max Planck on the occasion of the sixtieth anniversary of his passing. It is the first in a new series of conference ...

Atom-Photon Entanglement - Experimental Quantum Physics

Transport properties of normal liquid helium

... cheapest from the computational perspective, since it is always less demanding to compute static quantities than to run dynamics of any kind. On the other hand, the formulation of QMCT for complex systems, such as molecular systems with internal degrees of freedom, is complicated.58,59 Thus, methods ...

Superconducting Qubits and Circuits: Artificial Atoms Coupled to

... i. measurement based QEC ii. non-measurement based QEC 11. Towards Scaling up to Many Qubits (a) importance of large on-oﬀ coupling ratios (b) Houck double transmon (c) multiple-cavity architectures and communication protocols (d) cavities as quantum memories (e) cavities as qubits (f) qubits as swi ...

DEMONSTRATION OF RYDBERG BLOCKADE AND A NEUTRAL

... Ramsey measurement for the clock states, a)-c), and for the stretched states d). This is done by applying a π/2 ground state rotation leaving a gap and applying a second π/2 pulse with a variable phase. As described in Section 3.5 the Raman laser accumulates a relative phase at the AC Stark shift of ...

Tailoring Quantum Architectures to Implementation Style: A

... Quantum computing is a new computing paradigm that takes advantage of distinctive properties in quantum mechanics. Quantum superposition allows quantum bits (qubits) to represent multiple states simultaneously. Whereas a classical n-bit string may possess exactly one of 2n possible values, a string ...

COMPUTER-AIDED-DESIGN METHODS FOR EMERGING

An introduction to lattice gauge theory and spin systems

... quite el. egant. Another approach which ...

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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