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XVIIth International Workshop on Quantum Atomic and Molecular
XVIIth International Workshop on Quantum Atomic and Molecular

23 - Electronic Colloquium on Computational Complexity
23 - Electronic Colloquium on Computational Complexity

Classical Simulation of Quantum Systems
Classical Simulation of Quantum Systems

imaging single-electron charging in nanostructures by low
imaging single-electron charging in nanostructures by low

... Science is a collaborative and social endeavor, and it is my pleasure to acknowledge other people’s contributions to this work. There is a large number of colleagues, collaborators, and friends that I had a chance to interact and work with, and it seems impossible to credit them all. Many of the peo ...
Quantum walk  search on satisfiability problems random
Quantum walk search on satisfiability problems random

Embedding Quantum Simulators Roberto Di Candia
Embedding Quantum Simulators Roberto Di Candia

Serkan Sahin (Master, JGU, 2015): Entanglement
Serkan Sahin (Master, JGU, 2015): Entanglement

Simulation of 50-nm Gate Graphene Nanoribbon Transistors
Simulation of 50-nm Gate Graphene Nanoribbon Transistors

Defining and detecting quantum speedup
Defining and detecting quantum speedup

NUCLEAR MAGNETIC RESONANCE QUANTUM COMPUTATION
NUCLEAR MAGNETIC RESONANCE QUANTUM COMPUTATION

... used in conventional NMR [2, 6, 9–11]. Although ultimately based on traditional treatments of spin physics this notation differs from the usual physics notation in a number of subtle ways. ...
Detection of visible photons in CCD and CMOS: A
Detection of visible photons in CCD and CMOS: A

Quantum Magic - UMD WordPress blog
Quantum Magic - UMD WordPress blog

... fore the start of the game. From the perspective of players limited to classical or local resources, the ability to win such games seems inexplicable without telepathic communication between the players—hence the name. Of course, no cheating or telepathy is involved, only quantum magic. The simulati ...
Martin Raith - Publikationsserver der Universität Regensburg
Martin Raith - Publikationsserver der Universität Regensburg

... Chapter 2. Electron Spins in Semiconductor Quantum Dots approach is to use the Rydberg states of an atom, which have a very large electric dipole moment [45, 46]. The coherence time of trapped atom qubits is of the order of seconds [19], which is by all means long enough for initialization, manipul ...
Development of a Silicon Semiconductor Quantum Dot Qubit with
Development of a Silicon Semiconductor Quantum Dot Qubit with

... Development of a Silicon Semiconductor Quantum Dot Qubit with Dispersive Microwave Readout by Edward Trowbridge Henry Doctor of Philosophy in Physics University of California, Berkeley Professor I. Siddiqi, Chair Semiconductor quantum dots in silicon demonstrate exceptionally long spin lifetimes as ...
Development of a Silicon Semiconductor Quantum Dot Qubit with
Development of a Silicon Semiconductor Quantum Dot Qubit with

Quantum Information Processing
Quantum Information Processing

... Any classical system is always in one of a defined set of states. For example, a perfect classical bit is actually in state zero or state one at any time; the two possibilities are mutually exclusive. However, as will be seen, a quantum system can exist in what might be termed a schizophrenic state, ...
Quantum Computational Complexity - Cheriton School of Computer
Quantum Computational Complexity - Cheriton School of Computer

... II.1 Computational complexity Throughout this article the binary alphabet {0, 1} is denoted Σ, and all computational problems are assumed to be encoded over this alphabet. As usual, a function f : Σ∗ → Σ∗ is said to be polynomial-time computable if there exists a polynomial-time deterministic Turing ...
On quantum obfuscation - University of Maryland Institute for
On quantum obfuscation - University of Maryland Institute for

Research Journal of Applied Sciences, Engineering and Technology 4(6): 535-543,... ISSN: 2040-7467 ©Maxwell Scientific Organization, 2012
Research Journal of Applied Sciences, Engineering and Technology 4(6): 535-543,... ISSN: 2040-7467 ©Maxwell Scientific Organization, 2012

... energy dissipation. Landauer in his research said that the amount of energy that is dissipated for every irreversible bit operation is at least “KTln2” joules, where K = 1.3806505×10G23 m2kg!2K!1 is a Boltzmann’s constant and T is temperature in which operation is performing (Landauer, 1961; Parhami ...
Emulating Quantum Computation
Emulating Quantum Computation

Program and Booklet - Fakultät für Mathematik
Program and Booklet - Fakultät für Mathematik

QUANTUM STATES, ENTANGLEMENT and CLOSED TIMELIKE
QUANTUM STATES, ENTANGLEMENT and CLOSED TIMELIKE

... • GTR allows non-trivial geometry of space-time which can generate closed timelike curves (CTCs). • A closed time like curve connects back on itself, (for example, in the presence of a spacetime wormhole) that could link a future spacetime point with a past spacetime ...
Resonant Magnetization Tunneling in Molecular Magnets
Resonant Magnetization Tunneling in Molecular Magnets

Observation of Distinct Two-Photon Transition Channels in CdTe
Observation of Distinct Two-Photon Transition Channels in CdTe

... Semiconductor quantum dots (QDs) are nanomaterials represented by a three-dimensionally confined electron-hole system. Such tight spatial confinement provides interesting optical features, such as size-tunable absorption and emission, which are closely associated with new technologies spanning from ...
Quantum Computation and Quantum Information 10th Anniversary
Quantum Computation and Quantum Information 10th Anniversary

... In praise of the book 10 years after publication Ten years after its initial publication, “Mike and Ike” (as it’s affectionately called) remains the quantum computing textbook to which all others are compared. No other book in the field matches its scope: from experimental implementation to complexi ...
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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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