Josephson junctions have been shown to be a promising solid-state system for implementation of quantum computation. The significant two-qubit gates are generally realized by the capacitive coupling between the nearest neighbour qubits. We propose an effective Hamiltonian to describe charge qubits coupled through the cavity. We find that nontrivial two-qubit gates may be achieved by this coupling. The ability to interconvert localized charge qubits and flying qubits in the proposed scheme implies that quantum network can be constructed using this large scalable solid-state system
Josephson qubits without direct interaction can be effectively coupled by sequentially connecting th...
Based on an idea that spatial separation of charge states can enhance quantum coherence, we propose ...
We have analyzed and measured the quantum coherent dynamics of a circuit containing two coupled supe...
A different approach to coupling Josephon-junction qubits is presented. It is shown that this system...
The concept of a quantum computer was invented in the beginning of the 1980s as a quantum generaliza...
The technologies of Josephson -junction -based qubits have been progressing rapidly, ever since its ...
We have succeeded in coupling two solid-state qubits and observing quantum coherent dynamics of such...
The quest for large scale integrability and flexibility has stimulated an increasing interest in des...
We demonstrate a Josephson circuit consisting of two electrostatically coupled charge quantum bits (...
7 pags., 4 figs. -- This paper is part of the APL Special Collection on Emerging Qubit Systems - Nov...
We have analyzed and measured the quantum coherent dynamics of a circuit containing two-coupled supe...
High fidelity quantum information processing requires a combination of fast gates and long-lived qua...
The theory of superconducting phase qubits—also known as current-biased Josephson junctions—is prese...
A variety of Josephson-junction-based qubits have recently been implemented with remarkable progress...
In this letter, we propose a scheme to buildup a highly coherent solid-state quantum bit (qubit) fro...
Josephson qubits without direct interaction can be effectively coupled by sequentially connecting th...
Based on an idea that spatial separation of charge states can enhance quantum coherence, we propose ...
We have analyzed and measured the quantum coherent dynamics of a circuit containing two coupled supe...
A different approach to coupling Josephon-junction qubits is presented. It is shown that this system...
The concept of a quantum computer was invented in the beginning of the 1980s as a quantum generaliza...
The technologies of Josephson -junction -based qubits have been progressing rapidly, ever since its ...
We have succeeded in coupling two solid-state qubits and observing quantum coherent dynamics of such...
The quest for large scale integrability and flexibility has stimulated an increasing interest in des...
We demonstrate a Josephson circuit consisting of two electrostatically coupled charge quantum bits (...
7 pags., 4 figs. -- This paper is part of the APL Special Collection on Emerging Qubit Systems - Nov...
We have analyzed and measured the quantum coherent dynamics of a circuit containing two-coupled supe...
High fidelity quantum information processing requires a combination of fast gates and long-lived qua...
The theory of superconducting phase qubits—also known as current-biased Josephson junctions—is prese...
A variety of Josephson-junction-based qubits have recently been implemented with remarkable progress...
In this letter, we propose a scheme to buildup a highly coherent solid-state quantum bit (qubit) fro...
Josephson qubits without direct interaction can be effectively coupled by sequentially connecting th...
Based on an idea that spatial separation of charge states can enhance quantum coherence, we propose ...
We have analyzed and measured the quantum coherent dynamics of a circuit containing two coupled supe...