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Sufficient Conditions for Efficient Classical Simulation of Quantum
Sufficient Conditions for Efficient Classical Simulation of Quantum

Quantum Computation: a Tutorial
Quantum Computation: a Tutorial

... Unitaries are only rotating the state of the quantum system. In order to get some classical information out, the only available operation is the measurement. It is a probabilistic operation defined as follows: if u = ( α β ) is a normalized vector representing a quantum bit, the measure of u returns ...
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Entangled Photons and Bell`s Inequality
Entangled Photons and Bell`s Inequality

Reversible vs. Quantum Computing
Reversible vs. Quantum Computing

Revealing the time-dependent polarization of
Revealing the time-dependent polarization of

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Manifestations of phase-coherent transport in
Manifestations of phase-coherent transport in

An important problem, not discussed so far by other authors, is the
An important problem, not discussed so far by other authors, is the

Tree Search and Quantum Computation
Tree Search and Quantum Computation

Tunneling Times and Superluminality: a Tutorial
Tunneling Times and Superluminality: a Tutorial

Quantum-Secure Coin-Flipping and Applications
Quantum-Secure Coin-Flipping and Applications

How to program a quantum computer
How to program a quantum computer

COMPUTER-AIDED-DESIGN METHODS FOR EMERGING
COMPUTER-AIDED-DESIGN METHODS FOR EMERGING

... Our early investigation of reversible logic is concerned with a virtual implementation that uses a direct translation of relatively complex binary functions into circuits composed of Fredkin reversible gates. This allowed us to project size and speed complexity of complex reversible circuits, altho ...
Kondo-model for quantum-dots with spin
Kondo-model for quantum-dots with spin

Programmable architecture for quantum computing Jialin Chen, Lingli Wang, Edoardo Charbon,
Programmable architecture for quantum computing Jialin Chen, Lingli Wang, Edoardo Charbon,

... application such as n-qubit quantum Fourier transform, one QLB can be reconfigured for four-qubit quantum Fourier transform. Although this is an implementation-independent architecture, we still make a rough analysis of its performance based on the qubus system. In a word, QFPGA provides a general a ...
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full text

THE PHOTOSYNTHETIC EFFICIENCY OF PHYCOCYANIN IN
THE PHOTOSYNTHETIC EFFICIENCY OF PHYCOCYANIN IN

ADIABATIC QUANTUM COMPUTATION
ADIABATIC QUANTUM COMPUTATION

... created efficiently in any system with a quantum Ising-type interaction between two-state particles in a lattice configuration. ...
Composing Quantum Protocols in a Classical Environment
Composing Quantum Protocols in a Classical Environment

The powerpoint presentation of the material
The powerpoint presentation of the material

... Certain properties of physical objects form complementary pairs. The more accurately one property from a pair is known, the less accurately it is possible, in principle, to know the other. The position & momentum of a particle are a complementary pair of properties: ...
The powerpoint presentation of the material
The powerpoint presentation of the material

The Effect of Communication Costs in Solid
The Effect of Communication Costs in Solid

... AND , OR , and NOT gates, any polynomially describable multi-qubit quantum transform U can be efficiently approximated by composing just these three quantum gates into a circuit. One additional important operator is the SWAP gate. Just as two classical values can be swapped using three XOR’s, a quan ...
Quantum computing: An IBM perspective
Quantum computing: An IBM perspective

... Josephson junction technology as the basis for the fabrication of qubits. Since the critical features of a Josephson junction are defined by a lithographic process, it should be possible to build many of such devices using the processes of modern microelectronics manufacturing. This suggests that the ...
Programming with Quantum Communication
Programming with Quantum Communication

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Quantum dot cellular automaton

Quantum dot cellular automata (sometimes referred to simply as quantum cellular automata, or QCA) are proposed models of quantum computation, which have been devised in analogy to conventional models of cellular automata introduced by von Neumann.
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