Detailed program - Ricardo Mendes Ribeiro
... and postdoctoral fellows, taught undergraduate as well as graduate courses, and contributed to the physics department in many ways. Shi-Jian’s research areas were condensed matter theory and quantum information. I will not go into details on Shi-Jian’s contributions, other than to point out that thr ...
... and postdoctoral fellows, taught undergraduate as well as graduate courses, and contributed to the physics department in many ways. Shi-Jian’s research areas were condensed matter theory and quantum information. I will not go into details on Shi-Jian’s contributions, other than to point out that thr ...
Cryogenic Control Architecture for Large
... (Received 4 October 2014; revised manuscript received 21 December 2014; published 23 February 2015) Solid-state qubits have recently advanced to the level that enables them, in principle, to be scaled up into fault-tolerant quantum computers. As these physical qubits continue to advance, meeting the ...
... (Received 4 October 2014; revised manuscript received 21 December 2014; published 23 February 2015) Solid-state qubits have recently advanced to the level that enables them, in principle, to be scaled up into fault-tolerant quantum computers. As these physical qubits continue to advance, meeting the ...
q -entropies and the entanglement dynamics of two-qubits interacting with an... 408 A. Hamadou-Ibrahim et al.
... applications, such as quantum computation [2, 3] and quantum metrology [6]. The phenomenon of decoherence comprises, basically, a family of effects arising from the interaction (and the accompanying entanglement-development) between quantum systems and their environments [3, 4]. Physical systems in ...
... applications, such as quantum computation [2, 3] and quantum metrology [6]. The phenomenon of decoherence comprises, basically, a family of effects arising from the interaction (and the accompanying entanglement-development) between quantum systems and their environments [3, 4]. Physical systems in ...
INORGANIC CHEMISTRY F R O N T I E R S
... decoherence caused by phonons.44 Moreover, as transition energy has to be matched eventually by a microwave pulse in an EPR experiment, large tunneling gaps may be impractical in some cases. By using the condition ≈ , as in the
present case, decoupling from magnetic interactions can be
ac ...
... decoherence caused by phonons.44 Moreover, as transition energy has to be matched eventually by a microwave pulse in an EPR experiment, large tunneling gaps may be impractical in some cases. By using the condition
The p orbital paradox
... states we may renunciate to the concept of trajectories in quantum mechanics [Messiah, 1999]. I dislike that kind of reply by two motives. The first reason is methodological. I think one would address the mistake being done during the early assumption, i.e. that a single electron finds in some point ...
... states we may renunciate to the concept of trajectories in quantum mechanics [Messiah, 1999]. I dislike that kind of reply by two motives. The first reason is methodological. I think one would address the mistake being done during the early assumption, i.e. that a single electron finds in some point ...
The additivity problem in quantum information theory
... since apparently there are continually many pure states Pψ in H1 ⊗ H2 , given by vectors ψ not representable as a tensor product ψ1 ⊗ ψ2 . In quantum theory the tensor product H1 ⊗ H2 describes the composite (bipartite) system. Vectors that are not of the form ψ1 ⊗ψ2 , as well as the corresponding p ...
... since apparently there are continually many pure states Pψ in H1 ⊗ H2 , given by vectors ψ not representable as a tensor product ψ1 ⊗ ψ2 . In quantum theory the tensor product H1 ⊗ H2 describes the composite (bipartite) system. Vectors that are not of the form ψ1 ⊗ψ2 , as well as the corresponding p ...
Quantum Aspects of Resolving Discrete Charges
... Poisson-Schrödinger solution, shows the Coulomb potential well and the bound energy states, illustrating this point. It is clear that a large fraction of the potential in the well cannot be followed by the electron concentration due to such quantisation. This results in a quantum reduction of the e ...
... Poisson-Schrödinger solution, shows the Coulomb potential well and the bound energy states, illustrating this point. It is clear that a large fraction of the potential in the well cannot be followed by the electron concentration due to such quantisation. This results in a quantum reduction of the e ...
QUANTUM COMPUTING: AN OVERVIEW
... Quantum computing and quantum information processing are emerging disciplines in which the principles of quantum physics are employed to store and process information. We use the classical digital technology at almost every moment in our lives: computers, mobile phones, mp3 players, just to name a f ...
... Quantum computing and quantum information processing are emerging disciplines in which the principles of quantum physics are employed to store and process information. We use the classical digital technology at almost every moment in our lives: computers, mobile phones, mp3 players, just to name a f ...
Quantum technology: the second quantum revolution
... (v) Entanglement: the superposition principle applied to certain non-local correlations. If a correlation can be realized in two or more indistinguishable ways, the state of the system is a superposition of all such correlations simultaneously. (vi) Decoherence: what happens to quantum superposition ...
... (v) Entanglement: the superposition principle applied to certain non-local correlations. If a correlation can be realized in two or more indistinguishable ways, the state of the system is a superposition of all such correlations simultaneously. (vi) Decoherence: what happens to quantum superposition ...
Braid Topologies for Quantum Computation
... from error and loss of quantum coherence due to coupling to the environment. Topological quantum computation (TQC) [1, 2] offers a particularly elegant way to achieve this using quasiparticles which obey nonabelian statistics [3, 4]. These quasiparticles, which are expected to arise in a variety of ...
... from error and loss of quantum coherence due to coupling to the environment. Topological quantum computation (TQC) [1, 2] offers a particularly elegant way to achieve this using quasiparticles which obey nonabelian statistics [3, 4]. These quasiparticles, which are expected to arise in a variety of ...
Majorana Fermions - Physics | Oregon State University
... deconfinement physics expected for QSLs. Comparing these with recent dynamical calculations involving gauge flux excitations and Majorana fermions of the pure Kitaev model, we propose the excitation spectrum of α-RuCl3 as a prime candidate for fractionalized Kitaev physics. ...
... deconfinement physics expected for QSLs. Comparing these with recent dynamical calculations involving gauge flux excitations and Majorana fermions of the pure Kitaev model, we propose the excitation spectrum of α-RuCl3 as a prime candidate for fractionalized Kitaev physics. ...
