Does Quantum Mechanics Clash with the Equivalence Principle

The regularities of the Rydberg energy levels of many

... highly praised. Unfortunately, however, the divergence in the calculation not only makes the computation onerous, but makes it difficult to compute high Rydberg states using these methods. The presentation and development of quantum defect theory (QDT) provided a feasible way to calculate the high R ...

here - Foundations of Physics 2013

QMA = PP implies that PP contains PH

Feeling the Future again

Quantum Mechanics as Complex Probability Theory

... To derive a frequency interpretation for ordinary probabilities, let p be the probability of success in an experiment and note that by the central limit theorem, the number of successes n in N independent copies of the p experiment is asymptotically gaussian with mean = Np and with = proportiona ...

Quantum Entanglement in Many-body Systems

... systems was strongly criticized by Albert Einstein, who believed quantum theory is incomplete due to such non-locality. In 1935, Einstein, Podolsky, and Rosen [1] proposed a thought experiment to argue that there may be some hidden variables not yet discovered in the quantum theory. There was no way ...

Some Basic Aspects of Fractional Quantum Numbers

... The explanation of how matter can be built up from a few types of indivisible buildingblocks, each occurring in vast numbers of identical copies, is a major triumph of local quantum field theory. In many ways, it forms the centerpiece of twentieth century physics. Therefore the discovery of physical ...

Analog Quantum Simulators - Kirchhoff

The Many Avatars of a Simple Algebra S. C. Coutinho The American

Rewriting measurement-based quantum computations with

... do not have causal flow. Unlike other translations from 1WQC, the circuits we generate do not make use of any ancilla qubits. The diagrammatic calculus we employ draws from the long tradition of graphical representations of monoidal categories. Aside from providing a very intuitive notation for reas ...

Lecture 11 Identical particles

Codes and designs for quantum error correction

... nonzero entries, that is, min$\{wt(c) |c\in \mathcal{C}, c\neq 0\}=d$ . Because we only consider a binary code, we omit the term binary when referring to linear codes and LDPC codes. linear code encodes logical bits into physical bits, where is the length and is the dimension of the code. The parame ...

CS286.2 Lectures 5-6: Introduction to Hamiltonian Complexity, QMA

Introduction to Quantum Error Correction and Fault Tolerance

Prime Factorization Using Quantum Annealing and Algebraic

Liquid-State NMR Quantum Computing

"Liquid-State NMR Quantum Computing" in

ppt - Harvard Condensed Matter Theory group

... taken at the same point and at different times. Moments of interference experiments come from correlations functions taken at the same time but in different points. Euclidean invariance ensures that the two are the same ...

PPT - Fernando Brandao

... Classically we need Ω(n) bits, unless there is a subexponential time algorithm for SAT Quantumly we need Ω(n) qubits, unless there is a quantum subexponential algorithm for SAT (Marriott and Watrous ’05) But what if we have a quantum state, but with the promise that parts of it are not entangled? ...

Tensor Networks, Quantum Error Correction, and

fund_notes_up2 (new_version)

... would effect its twin simultaneously, instantaneously, even if the two had been widely separated in space. A mathematical proof of this was produced by JS Bell in 1964, and experimentally confirmed in 1982. At the University of Paris a research team led by physicist Alain Aspect proved J.S. Bell’s ...

Relations between Massive and Massless one

... one-particle states are described detailed. The massive particle with spin s has 2s+1 one-particle states. The massless particle with spin s has only two one-particle states. There is a large gap between them. The paper proves that massive one-particle states’ transformation can continuously change ...

Document

... quantum is very small with the respect to our measures (macroscopic measurements): we can use continuous mathematics as if the quantum is infinitesimal; obviously we can even approximate continuum with discreteness (e.g. numerical routines for infinitesimal calculus). From a logical point of view th ...

Why Quantum Theory? Lucien Hardy November 13, 2001 Centre for Quantum Computation,

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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