Implementing Qubits with Superconducting Integrated Circuits Michel H. Devoret and John M. Martinis

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 ...

The many facets of entropy - Physik Uni

Coherent manipulations of charge-number states in a Cooper-pair box Y. Nakamura,

Guidance Applied to Quantum Operations in Josephson

... The coherent operation and control of quantum mechanical systems is typically controlled by the application of classical external bias fields. These fields are subject to noise which will then couple to the system, limiting the coherence of the quantum mechanical system. In a classical system, a clo ...

Braid Topologies for Quantum Computation

Measurement-based and Universal Blind Quantum Computation

... quantum measurements are inherently not deterministic, one can sometimes ensure the global determinism of the computation using suitable dependencies between measurements. Flow asserts that under a graph-theoretic condition on the entanglement underlying a given computation, it is possible to constr ...

Entanglement and Quantum Teleportation

Quantum methods for clock synchronization: Beating the standard

Partial fulfillment of DiVincenzo criteria using manipulation of Rb

MULTIPARTICLE ENTANGLEMENT Sebastian Hartweg, Mario Berta (QSIT Seminar, 10.12.2012)

... creation of cat states of up to six atomic qubits. Each qubit’s state space is defined by two hyperfine ground states of a beryllium ion; the cat state corresponds to an entangled equal superposition of all the atoms in one hyperfine state and all atoms in the other hyperfine state. In our experimen ...

A Gentle Introduction to Quantum Computing

Superconducting Circuits and Quantum Computation T. P. Orlando

Quantum annealing with manufactured spins

... the theoretical study of ideal isolated spin networks and the experimental investigation of bulk magnetic samples. Moreover, with an increased number of spins, such a system may provide a practical physical means to implement a quantum algorithm, possibly allowing more-effective approaches to solvin ...

PowerPoint - Isaac Newton Institute

Interconnection Networks for Scalable Quantum Computers

Quantum Computing with Majorana Fermions Coupled to

Codes and designs for quantum error correction

... submatrix in which each row and column has exactly two ones. The girth of a parity-check matrix is the length of a shortest cycle in the corresponding Tanner graph. Since a Tanner graph is bipartite, its girth must be an even number. When it is clear from context which parity-check matrix is conside ...

Document

... and proof is complete as anti-unitary operations are not Physical!!(Not a CP map!) Other way is to consider three states not lying on a great circle and prove the impossibility. Consider states like the following: ...

Improved Quantum Metrology Using Quantum Error Correction

Surrey seminar on CQP - School of Computing Science

... a global property of f ended up being encoded in a single place so that it could be extracted by a measurement. Developing quantum algorithms for interesting problems seems to be very difficult. Surrey Seminar: Communicating Quantum Processes ...

classical simulation of restricted quantum computations

Memory-built-in quantum teleportation with photonic and atomic qubits

... locations or nodes by means of single photons traveling qubits, which are guided through waveguides. Interestingly, this coherent interface, which is responsible for the state of the storage qubits to be mapped onto the traveling qubits or the entanglement between them, is itself a qubit system, t ...

Superconducting phase qubit coupled to a nanomechanical resonator:

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Algorithmic cooling

Algorithmic cooling is a phenomenon in quantum computation in which the processing of certain types of computation results in negative entropy and thus a cooling effect.The phenomenon is a result of the connection between thermodynamics and information theory. In so far as information is encoded in physical systems it is subject to the laws of thermodynamics.Certain processes within computation require a change in entropy within the computing system. As data must be stored as some kind of ordered structure (like a localized charge in a capacitor) so the erasure of data by destroying this order must involve an increase in disorder, or entropy. This means that the erasure of data releases heat. This is Landauer's principle.Reversible computing or Adiabatic computing is a theoretical type of computing in which data is never erased, it just changes state or is marked to be ignored. In theory such a system would be able to ""hide"" data without releasing heat.In the case of quantum entangled data, or qubits, it is possible for a computation to result in negative entropy, actually transferring heat out of the computational system, and so cooling it.

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Algorithmic cooling