**Superconducting quantum computing** is a promising implementation of quantum information that involves nanofabricated superconducting electrodes coupled through Josephson junctions. As in a superconducting electrode, the phase and the charge are conjugate variables, there exists three families of superconducting qubits, depending if the charge, the phase or neither of the two are good quantum numbers. This refers respectively to charge qubits, flux qubits, and hybrid qubits.

Read more about Superconducting Quantum Computing: Theory, Journal Articles On Superconducting Qubits

### Other articles related to "superconducting quantum computing, quantum, quantum computing":

**Superconducting Quantum Computing**- Journal Articles On Superconducting Qubits

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**Quantum**coherence with a single Cooper pair "

**Quantum**Coherence with a Single Cooper Pair" ... "Coherent control of macroscopic

**quantum**states in a single-Cooper-pair box" ... "

**Quantum**-state engineering with Josephson-junction devices" ...

... states that the behavior of systems described by the theory of

**quantum**mechanics (or by the old

**quantum**theory) reproduces classical physics in the limit of large

**quantum**numbers ... words, it says that for large orbits and for large energies,

**quantum**calculations must agree with classical calculations ...

...

**Quantum**Instrument collection acts as A

**quantum**instrument is more general than a

**quantum**operation because it records the outcome k of which operator acted on the state ...

...

**Quantum**bogosort An in-joke among some computer scientists is that

**quantum computing**could be used to effectively implement a bogosort with a time complexity of O(n) ... It uses true

**quantum**randomness to randomly permute the list ... By the many-worlds interpretation of

**quantum**physics, the

**quantum**randomization spawns (where N is the number of random bits) universes and one of these will be such that this single shuffle had ...

... The name vector boson arises from

**quantum**field theory ...

**Quantum**superpositions of these states can be taken such that they transform under rotations just like the spatial components of a rotating vector ... If the vector boson is taken to be the

**quantum**of a field, the field is a vector field, hence the name ...

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