Charge Relaxation and Dephasing in Coulomb Coupled Conductors
... Mesoscopic systems coupled only via the long range Coulomb forces are of importance since one of the systems can be used to perform measurements on the other [1]. Despite the absence of carrier transfer between the two conductors their proximity affects the dephasing rate. Of particular interest are ...
... Mesoscopic systems coupled only via the long range Coulomb forces are of importance since one of the systems can be used to perform measurements on the other [1]. Despite the absence of carrier transfer between the two conductors their proximity affects the dephasing rate. Of particular interest are ...
Quantum Computing with Majorana Fermions Coupled to
... With this in mind, let us then look into the quantum analog. ...
... With this in mind, let us then look into the quantum analog. ...
Superconducting Circuits and Quantum Computation T. P. Orlando
... Superconducting circuits are being used as components for quantum computing and as model systems for non-linear dynamics. Quantum computers are devices that store information on quantum variables and process that information by making those variables interact in a way that preserves quantum coherenc ...
... Superconducting circuits are being used as components for quantum computing and as model systems for non-linear dynamics. Quantum computers are devices that store information on quantum variables and process that information by making those variables interact in a way that preserves quantum coherenc ...
Research Statement
... However, the theory has not completely caught up with the experiment. While the photonic platform for quantum information processing has much in its favor, it suffers from imperfect detector efficiency and photon loss which gets worse as the number of optical components is scaled up. It is not under ...
... However, the theory has not completely caught up with the experiment. While the photonic platform for quantum information processing has much in its favor, it suffers from imperfect detector efficiency and photon loss which gets worse as the number of optical components is scaled up. It is not under ...
Deriving new operator identities by alternately using normally
... will probably be increasingly used in the future as it becomes better understood and its own special mathematics gets developed [1].” Following his expectation, the technique of integration within an ordered product (IWOP) of operators was invented which can directly apply the Newton-Leibniz integra ...
... will probably be increasingly used in the future as it becomes better understood and its own special mathematics gets developed [1].” Following his expectation, the technique of integration within an ordered product (IWOP) of operators was invented which can directly apply the Newton-Leibniz integra ...
On Quantum Nonseparability - Philsci
... violates the conception of separability.1 The source of its defiance is due to the tensorproduct structure of Hilbert-space quantum mechanics and the superposition principle of states. As a means of facilitating the discussion, we shall mostly consider in the sequel the simplest case of a compound s ...
... violates the conception of separability.1 The source of its defiance is due to the tensorproduct structure of Hilbert-space quantum mechanics and the superposition principle of states. As a means of facilitating the discussion, we shall mostly consider in the sequel the simplest case of a compound s ...
Characterising Graph Symmetries through Quantum
... graphs represent the quantum mechanical analog of the classical random walk on a graph. Despite being similar in their definition, the dynamics of the two walks differ remarkably. This is mainly due to the fact that while the state vector of the classical random walk is real valued, in the quantum c ...
... graphs represent the quantum mechanical analog of the classical random walk on a graph. Despite being similar in their definition, the dynamics of the two walks differ remarkably. This is mainly due to the fact that while the state vector of the classical random walk is real valued, in the quantum c ...
Schumacher Compression
... Given access to many uses of a noiseless classical channel, what is the best that a sender and receiver can make of this resource for compressed data transmission? Shannon’s compression theorem demonstrates that the Shannon entropy is the fundamental limit for the compression rate in the IID setting ...
... Given access to many uses of a noiseless classical channel, what is the best that a sender and receiver can make of this resource for compressed data transmission? Shannon’s compression theorem demonstrates that the Shannon entropy is the fundamental limit for the compression rate in the IID setting ...
Powerpoint97 - mindsofmexico.org
... 3. HP amino acid interaction with its milieu is a driving force of the folding process. 4. The only interaction among amino acids is the favorable contact between two non-adjacent (in the amino acid sequence) H amino acids. ...
... 3. HP amino acid interaction with its milieu is a driving force of the folding process. 4. The only interaction among amino acids is the favorable contact between two non-adjacent (in the amino acid sequence) H amino acids. ...
