Semiclassical methods in solid state physics : two examples
Semiclassical methods in solid state physics : two examples

Dynamical quantum-electrodynamics embedding: Combining time
Dynamical quantum-electrodynamics embedding: Combining time

Shamsul Kaonain
Shamsul Kaonain

... interfere with the functioning of such circuits and devices. One of the possible solutions to the problem posed by eventual failure of devices in a sub atomic scale is to move to a different architecture of computing. One option is provided by the theory of quantum computation , which is based on th ...
It is natural to think of quantum computations as multiparticle
It is natural to think of quantum computations as multiparticle

Grof, Jung, and the Quantum Vacuum
Grof, Jung, and the Quantum Vacuum

Conjugate Codes - at www.arxiv.org.
Conjugate Codes - at www.arxiv.org.

... data v+C2⊥ provided we could send the entangled state |φxzv i in (8) and the noise level of the quantum channel including Eve’s action were tolerable by the quantum code. In the above scheme, the legitimate sender, Alice, and receiver, Bob, should share the random variables XZ, say, by sending them ...
Light and the Resolution of the Heisenberg Uncertainty Principle
Light and the Resolution of the Heisenberg Uncertainty Principle

Topic 13: Quantum and nuclear physics
Topic 13: Quantum and nuclear physics

... For light having a wavelength of 500. nm we have E = hc/ = (6.6310-34)(3.00108)/(50010-9) = 3.9810-19 J. ...
ppt - University of New Mexico
ppt - University of New Mexico

Document
Document

... state. Z is said to have a maximal belief structure. Subjective Bayesian answer We trust quantum over classical coin tossing because an agent who believes the coin is fair cannot rule out an insider attack, whereas the beliefs that lead to a pure-state assignment are inconsistent with any other part ...
Introduction to loop quantum gravity
Introduction to loop quantum gravity

... are a consequence of the assumption that the background geometry is smooth. How does one think in loop quantum gravity? Loop quantum gravity is based on the assumption that quantum mechanics and general relativity are correct. It assumes background independence and does not attempt to unify forces, ...
Quantum gravity without gravitons in a superfluid quantum space.
Quantum gravity without gravitons in a superfluid quantum space.

... 1 Massive particles as vortices in a superuid quantum space (SQS) The particles of the Standard Model could form as dynamic topological defects (superuid vortices) or pulses in a SQS [4]. In this view, the superuid vacuum is a fundamental scalar eld with quasi-zero viscosity which gives mass to ...
Closed timelike curves make quantum and classical computing equivalent
Closed timelike curves make quantum and classical computing equivalent

No Evidence for Particles
No Evidence for Particles

... Exhibit B in the alleged evidence for particles pertains to the localized effects of spread-out wave functions. For example, if a photon-like wave function goes through a single slit, becomes spread out and hits a screen covered with grains of film, one will find only a single grain of film exposed. ...
Document
Document

... to the light intensity varying in space. For light in the far field, i.e. for optical trapping far away from surfaces, this spatial resolution will thus be given essentially by the wavelength of the light. In the quest to realize free-space optical subwavelength structures for atoms we will describe ...
An attempt to understand the PBR no
An attempt to understand the PBR no

... PBR do not show that mixed [epistemic] models are predictively awed or fail to yield the correct quantum statistics for some observables or states of a given system. Rather, PBR demonstrate a possible diculty for hiddenvariables models in forming composites of identically prepared systems. (3.) ...
Heisenberg`s original derivation of the uncertainty principle and its
Heisenberg`s original derivation of the uncertainty principle and its

Two-dimensional electron gas in InGaAs/ InAlAs quantum wells E. Diez
Two-dimensional electron gas in InGaAs/ InAlAs quantum wells E. Diez

... t 共circles兲, measured at 4.2 K for samples 1–3 and 10–12, as a function of d, the distance from the bottom doping layer to the quantum well. Both scattering rates 共␶−1兲 shows a fast decrease at small values of d 共below ⬃30 nm兲, indicating that the dopants provide efficient scattering for electrons a ...
Modal Approaches in Metaphysics and Quantum Mechanics1
Modal Approaches in Metaphysics and Quantum Mechanics1

... The main goals of interpretation can be formulated as follows: (a) to find out which natural phenomena are hidden behind the equations; (b) to describe all parts of the theory in terms of the existence and reality; (c) to explain relationships of these parts with an experiment, including an operatio ...
Basic elements of quantum information technology
Basic elements of quantum information technology

- Philsci
- Philsci

Immortality: myth or becoming reality?
Immortality: myth or becoming reality?

... Cell biology shows that humans are programmed to die and daily experience shows that we cannot escape fatal wear of our body. But should we really be satisfied with our mortal organism or should we declare war on this ancient enemy, and rather decide that death is not invincible? Genetic and nano-te ...
chapter-12 quantum entanglement
chapter-12 quantum entanglement

Experiment and the foundations of quantum physics
Experiment and the foundations of quantum physics

Memory-built-in quantum teleportation with photonic and atomic qubits
Memory-built-in quantum teleportation with photonic and atomic qubits

Orchestrated objective reduction

Orchestrated objective reduction (Orch-OR) is a hypothesis that consciousness in the brain originates from processes inside neurons, rather than from connections between neurons as in the conventional view. The mechanism is held to be a quantum physics process called objective reduction which is orchestrated by molecular structures called microtubules.The hypothesis, which was put forward in the early 1990s by theoretical physicist Roger Penrose and anaesthesiologist and psychologist Stuart Hameroff, has so far been rejected by the majority of cognitive scientists.