Add to ORKGQuantum computing provides significantly more efficient methods than classical computers for doing rigorous calculations such as encryption, search algorithms, and physical simulations. This is accomplished through the use of qubits which exist in a superposition of multiple states at once allowing for both complex and fast calculations. Environmental fluctuations interfere with these states and resulting in decoherence and dephasing and the break down of the algorithm. One type of qubit is the fluxonium: a superconducting artificial atom derived from the Cooper pair box. The purpose of this project was to analyze the effect of charge noise on the fluxonium qubit which, in the past, has never systematically been done before. Charge noise en...
Decoherence in quantum bit circuits is presently a major limitation to their use for quantum computi...
Decoherence in quantum bit circuits is presently a major limitation to their use for quantum computi...
doi:10.1088/1367-2630/11/2/025002 Abstract. The efficiency of the future devices for quantum informa...
One of the most exciting potential applications of a quantum computer is the abilityto efficiently s...
The fluxonium qubit has arisen as one of the most promising candidate devices for implementing quant...
The fluxonium qubit has arisen as one of the most promising candidate devices for implementing quant...
The fluxonium qubit has arisen as one of the most promising candidate devices for implementing quant...
Superconducting qubits have in recent years become a promising candidate for the implementation of a...
Superconducting quantum devices have drawn the attention of physicists greatly in recent years, not ...
Superconducting quantum devices have drawn the attention of physicists greatly in recent years, not ...
The work of this thesis focuses on stochastic methods for the simulation of superconducting charge q...
We have investigated decoherence in Josephson-junction flux qubits. Based on the measurements of dec...
A complete analysis of the decoherence properties of a Josephson junction qubit is presented. The qu...
In the past two decades, one of the fascinating subjects in quantum physics has been quantum bits (q...
Decoherence in quantum bit circuits is presently a major limitation to their use for quantum computi...
Decoherence in quantum bit circuits is presently a major limitation to their use for quantum computi...
Decoherence in quantum bit circuits is presently a major limitation to their use for quantum computi...
doi:10.1088/1367-2630/11/2/025002 Abstract. The efficiency of the future devices for quantum informa...
One of the most exciting potential applications of a quantum computer is the abilityto efficiently s...
The fluxonium qubit has arisen as one of the most promising candidate devices for implementing quant...
The fluxonium qubit has arisen as one of the most promising candidate devices for implementing quant...
The fluxonium qubit has arisen as one of the most promising candidate devices for implementing quant...
Superconducting qubits have in recent years become a promising candidate for the implementation of a...
Superconducting quantum devices have drawn the attention of physicists greatly in recent years, not ...
Superconducting quantum devices have drawn the attention of physicists greatly in recent years, not ...
The work of this thesis focuses on stochastic methods for the simulation of superconducting charge q...
We have investigated decoherence in Josephson-junction flux qubits. Based on the measurements of dec...
A complete analysis of the decoherence properties of a Josephson junction qubit is presented. The qu...
In the past two decades, one of the fascinating subjects in quantum physics has been quantum bits (q...
Decoherence in quantum bit circuits is presently a major limitation to their use for quantum computi...
Decoherence in quantum bit circuits is presently a major limitation to their use for quantum computi...
Decoherence in quantum bit circuits is presently a major limitation to their use for quantum computi...
doi:10.1088/1367-2630/11/2/025002 Abstract. The efficiency of the future devices for quantum informa...