Add to ORKGWe analyzea direct parity measurement of the state of three superconducting qubits in circuit quantum electrodynamics. The parity is inferred from a homodyne measurement of the reflected and transmitted microwave radiation, and the measurement is direct in the sense that the parity is measured without the need for any quantum circuit operations or for ancilla qubits. Qubits are coupled to two resonant-cavity modes, allowing the steady state of the emitted radiation to satisfy the necessary conditions to act as a pointer state for the parity. However, the transient dynamics violates these conditions, and we analyze this detrimental effect and show that it can be overcome in the limit of a weak measurement signal. Our analysis shows that, wit...
Combining superconducting qubits with mesoscopic devices that carry topological states of matter may...
Quantum computers are one of the most prominent emerging technologies of the 21st century. While sev...
High-fidelity and rapid readout of a qubit state is key to quantum computing and communication, and ...
We analyzea direct parity measurement of the state of three superconducting qubits in circuit quantu...
We analyze a two-qubit parity measurement based on dispersive readout in circuit quantum electrodyna...
We present a concept for performing direct parity measurements on three or more qubits in microwave ...
We derive a family of stochastic master equations describing homodyne measurement of multi-qubit dia...
We propose and analyze a physical implementation of two-qubit parity measurements as required for co...
There are two general requirements to harness the computational power of quantum mechanics: the abil...
We analyze the backaction of homodyne detection and photodetection on superconducting qubits in circ...
We investigate quantum error correction using continuous parity measurements to correct bit-flip err...
International audienceWe propose a scheme to measure the parity of two distant qubits, while ensurin...
International audienceThanks to cat-state probes, we propose a scheme to measure the parity of twodi...
Although single- and two-qubit gates are sufficient for universal quantum computation, single-shot t...
Entangled multiqubit states may be generated through a dispersive collective quantum nondemolition m...
Combining superconducting qubits with mesoscopic devices that carry topological states of matter may...
Quantum computers are one of the most prominent emerging technologies of the 21st century. While sev...
High-fidelity and rapid readout of a qubit state is key to quantum computing and communication, and ...
We analyzea direct parity measurement of the state of three superconducting qubits in circuit quantu...
We analyze a two-qubit parity measurement based on dispersive readout in circuit quantum electrodyna...
We present a concept for performing direct parity measurements on three or more qubits in microwave ...
We derive a family of stochastic master equations describing homodyne measurement of multi-qubit dia...
We propose and analyze a physical implementation of two-qubit parity measurements as required for co...
There are two general requirements to harness the computational power of quantum mechanics: the abil...
We analyze the backaction of homodyne detection and photodetection on superconducting qubits in circ...
We investigate quantum error correction using continuous parity measurements to correct bit-flip err...
International audienceWe propose a scheme to measure the parity of two distant qubits, while ensurin...
International audienceThanks to cat-state probes, we propose a scheme to measure the parity of twodi...
Although single- and two-qubit gates are sufficient for universal quantum computation, single-shot t...
Entangled multiqubit states may be generated through a dispersive collective quantum nondemolition m...
Combining superconducting qubits with mesoscopic devices that carry topological states of matter may...
Quantum computers are one of the most prominent emerging technologies of the 21st century. While sev...
High-fidelity and rapid readout of a qubit state is key to quantum computing and communication, and ...