neuro-ontological interpretation of spiritual experiences

... look far and deep into the universe and dare to go beyond, at some point you will face your self. There is no such thing as monotonous, infinite progression and regression with endless hierarchies, larger and larger supersystems on the way up, or smaller and smaller elementary particles on the way d ...

Quantum weakest preconditions

The permutation gates combined with the one

... At the most basic level of quantum mechanics one must respect the uncertainty principle, and hence the classical control theory cannot be naively extended without modification [27]. Given appropriate experimental testing grounds, it should become feasible to develop a technically useful quantum cont ...

Lecture - Computer Science - University of Central Florida

... in time to a receiver in the sender's forward light cone. Entanglement, by contrast cannot be copied, but can connect any two points in space-time. Conventional data-processing operations destroy entanglement, but quantum operations can create it, preserve it and use it for various purposes, notably ...

Quantum Computer - Physics, Computer Science and Engineering

... to any one of those computations individually. This gives the quantum computer the potential to be vastly more efficient than a classical computer at certain computational tasks. ...

ppt - Harvard Condensed Matter Theory group

... When the interaction energy is comparable or larger than the kinetic energy, perturbation theory breaks down. Many surprising new phenomena occur, including unconventional superconductivity, magnetism, fractionalization of excitations ...

G070507-00 - DCC

Link to PDF - Vienna Center for Quantum Science and Technology

... of an LG01 and an LG00 mode, the second one into those of an LG01 and an LG00 mode [15,25]. These modules which can be viewed as generalizations of the polarizers in a polarization based two-dimensional Bell inequality experiment [26] can perform with their four moving axes (one horizontal and one ...

QuRE: The Quantum Resource Estimator Toolbox

QUANTUM PHYSICS AND PHILOSOPHY

... relativity theory, however, already leads us in this direction since it revises the physicist’s conception of space and time in an abstract mathematical world (called the Riemanian 4-manifold) and has some profound implications for our ordinary notions of space and time [See Weissmann (2005)]. Quan ...

Quantum - National Physical Laboratory

pdf - Martijn Wubs

... developed, where optical modes are described as open quantum systems. There are important similarities with classical optics, for example, the classical Green function ...

The quantum query complexity of AC 0 - Washington

ppt - Harvard Condensed Matter Theory group

Understanding Quantum Theory

... 3. Philosophical reflection: develop philosophical understanding of non-classical features of quantum world. I ...

Quantum Computing With Closed Timelike Curves

Quantum steady states and phase transitions in the presence of non

Quantum Networking and Internetworking

Paper

... distributions of a set of random variables RV. Suppose that by some reasons (e.g. technological or social, or economical, or political) we are not able to perform measurements of the whole collection of random variables ξ ∈ RV. Thus we are not able to obtain the complete statistical description of s ...

Nilpotence - Nature`s Code Foundation

... and ket vectors [6], representing once again the two fundamental operators of its description, must also be such a nilpotent rewrite system for describing quantum mechanical computation. It, by implication, therefore describes not just quantum mechanical dynamics, but includes quantum mechanical mea ...

By confining electrons in three dimensions inside semiconductors, quantum dots... recreate many of the phenomena observed in atoms and nuclei,...

Religion and the quantum world Transcript

... has a fundamental and ineliminable place in our conception of what the physical world is like. In other words, the physical is not simply there, apart from consciousness. Consciousness has to exist for physical reality to exist in the way it does, in relation to us – and we cannot get beyond that to ...

The quantum mechanics of photon addition and subtraction

... the other mode, without having to measure it. As shown in Figure 1(b), an initial field input to one mode will gain one extra photon heralded by a photon detected in the conjugate mode. By adding only one photon, any input state is converted into a nonclassical state that cannot be described by clas ...

Numerical Methods Project: Feynman path integrals in quantum

... It has good proporties such as being smooth and well confined, which means that the discrepancies around the endpoints become unimportant. Also the analytical solution for this problem is well known, which means that error estimating will be straight forward. The main characteristic is the energilev ...

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Quantum computing

Quantum computing studies theoretical computation systems (quantum computers) that make direct use of quantum-mechanical phenomena, such as superposition and entanglement, to perform operations on data. Quantum computers are different from digital computers based on transistors. Whereas digital computers require data to be encoded into binary digits (bits), each of which is always in one of two definite states (0 or 1), quantum computation uses quantum bits (qubits), which can be in superpositions of states. A quantum Turing machine is a theoretical model of such a computer, and is also known as the universal quantum computer. Quantum computers share theoretical similarities with non-deterministic and probabilistic computers. The field of quantum computing was initiated by the work of Yuri Manin in 1980, Richard Feynman in 1982, and David Deutsch in 1985. A quantum computer with spins as quantum bits was also formulated for use as a quantum space–time in 1968.As of 2015, the development of actual quantum computers is still in its infancy, but experiments have been carried out in which quantum computational operations were executed on a very small number of quantum bits. Both practical and theoretical research continues, and many national governments and military agencies are funding quantum computing research in an effort to develop quantum computers for civilian, business, trade, and national security purposes, such as cryptanalysis.Large-scale quantum computers will be able to solve certain problems much more quickly than any classical computers that use even the best currently known algorithms, like integer factorization using Shor's algorithm or the simulation of quantum many-body systems. There exist quantum algorithms, such as Simon's algorithm, that run faster than any possible probabilistic classical algorithm.Given sufficient computational resources, however, a classical computer could be made to simulate any quantum algorithm, as quantum computation does not violate the Church–Turing thesis.

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Quantum computing