Einstein-Podolsky-Rosen-Bohm laboratory

... A key feature of our test is that it does not rely on any particular property of the state |Φ. For instance, if in a laboratory EPRB experiment we find that E1 (a, b) shows a dependence on b that exceeds five times the standard deviation, this dependence cannot be attributed to |Φ deviating from t ...

Improved Quantum Metrology Using Quantum Error Correction

3 Nov 08 - Seattle Central College

... • Lecture – Cheer up, it’s only quantum mechanics!  – Wavefunctions, energies, and the Hamiltonian for the H atom (not in book) – Quantum numbers (7.6) – Orbital shapes and energies (7.7) – Electron spin and the Pauli Principle (7.8) ...

Kondo, Fano and Dicke effects in side quantum dots

Introduction - the Max Planck Institute for the Physics of Complex

... Entanglement spectrum of the 12-particle 1/3 Laughlin state for L1 =10. Left panels show the symmetric cut and right panels show one of the asymmetric cuts (see above). The blue squares represent numerically obtained data. The assigned edge modes are labeled by green dots while the combinations of t ...

Introduction to Quantum Entanglement

Computational Complexity: A Modern Approach

Steering criteria and steerability witnesses

StMalloQuantumComputing

ADIABATIC QUANTUM COMPUTATION

... NP-complete problem can be efficiently solved on classical computer. It is not known wheter quantum computers can be used to quickly solve all the problems in NP (although they can be used to solve some of them, e.g. factoring, which is believed not to be in P). 14 Another important class in PSPACE. ...

Properties of higher-order Trotter formulas

Proton tunneling in hydrogen bonds and its possible implications in

... with parameters Jx = J/2, Jz = V /4, λ̃ = λ + (2W1 + 2W2 +V )/4, B = −(W1 +W2 +V )/4, b = −(W1 −W2 )/4. Next, we consider a special case of structural isomerism that requires a chemical equilibrium of the different isomer forms or so-called tautomers, which differ only in the locations of their prot ...

Phys. Chem. Chem. Phys. 14, 9411-20

... the initial state with the system Hamiltonian, and (c) measuring the desired properties from the ﬁnal state. Before we move on to discuss each of these steps, we recall that the two major schemes in quantum simulation are digital (universal) quantum simulation (DQS) and analogue (dedicated) quantum ...

Classical Particles Having Complex Energy Exhibit Quantum

... Subsequently, studies of the complex extensions of conventional classical-mechanical systems were undertaken: The remarkable properties of complex classical trajectories were examined in Refs. [5, 6, 7, 8, 9]; the complex behavior of the pendulum, the Lotka-Volterra equations for population dynamics ...

Part III

McTaggart distinguished two conceptions of time - Philsci

... their hands on his theory, he no longer understood it himself. But subsequently he adopted Minkowski's space-time view as an essential step towards creating his second great theory - general relativity (GR). And it seems that SR does indeed imply that we are obliged to reject objectism and accept e ...

Quantum Phenomena in Low-Dimensional Systems Michael R. Geller

A Model on Genome Evolution

... Many different estimates for the rate of evolution were made from the fossil records. As compiled by Gingerich[14][15] four hundred and nine such estimates were reported and they vary between 0 and 39 darwins in fossil linearage. Palebiological studies indicated that species usually change more rapi ...

The Quantum Mechanical Model of the Atom

... Objects that you can see and interact with, such as a baseball, have wavelengths so small that they do not have any significant observable effect on the object’s motion. For microscopic objects, such as electrons, the effect of wavelength on motion becomes very significant. E.g. An electron moving a ...

Can Quantum-Mechanical Description of Physical Reality be

No Slide Title

The Kinetic Theory of Gases (2)

... other molecules? We imagine the gas to consist of a random distribution of n spheres per unit volume, each of diameter a. First, we consider them to be stationary. Now, suppose we choose a molecule at random and that it moves through the gas at speed v. Then, there will be collisions with molecules ...

Shor`s Factoring Algorithm and Modern Cryptography. An Illustration

Current State of Quantum Computing

Do Quantum Objects Have Temporal Parts? - Philsci

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Quantum teleportation

Quantum teleportation is a process by which quantum information (e.g. the exact state of an atom or photon) can be transmitted (exactly, in principle) from one location to another, with the help of classical communication and previously shared quantum entanglement between the sending and receiving location. Because it depends on classical communication, which can proceed no faster than the speed of light, it cannot be used for faster-than-light transport or communication of classical bits. It also cannot be used to make copies of a system, as this violates the no-cloning theorem. While it has proven possible to teleport one or more qubits of information between two (entangled) atoms, this has not yet been achieved between molecules or anything larger.Although the name is inspired by the teleportation commonly used in fiction, there is no relationship outside the name, because quantum teleportation concerns only the transfer of information. Quantum teleportation is not a form of transportation, but of communication; it provides a way of transporting a qubit from one location to another, without having to move a physical particle along with it.The seminal paper first expounding the idea was published by C. H. Bennett, G. Brassard, C. Crépeau, R. Jozsa, A. Peres and W. K. Wootters in 1993. Since then, quantum teleportation was first realized with single photons and later demonstrated with various material systems such as atoms, ions, electrons and superconducting circuits. The record distance for quantum teleportation is 143 km (89 mi).

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Quantum teleportation