Litcius/Paper detail

On-demand generation and characterization of a microwave time-bin qubit

J. Ilves, S. Kono, Y. Sunada, S. Yamazaki, M. Kim, K. Koshino, Y. Nakamura

2020npj Quantum Information27 citationsDOIOpen Access PDF

Abstract

Abstract Superconducting circuits offer a scalable platform for the construction of large-scale quantum networks, where information can be encoded in multiple temporal modes of propagating microwaves. Characterization of such microwave signals with a method extendable to an arbitrary number of temporal modes with a single detector and demonstration of their phase-robust nature are of great interest. Here, we show the on-demand generation and Wigner tomography of a microwave time-bin qubit with superconducting circuit quantum electrodynamics architecture. We perform the tomography with a single heterodyne detector by dynamically switching the measurement quadrature independently for two temporal modes through the pump phase of a phase-sensitive amplifier. We demonstrate that the time-bin encoding scheme relies on the relative phase between the two modes and does not need a shared phase reference between sender and receiver.

Topics & Concepts

QubitDetectorMicrowavePhysicsQuantumCharacterization (materials science)Flux qubitHeterodyne detectionScalabilityQuantum tomographyComputer scienceElectronic engineeringQuantum informationQuantum computerHeterodyne (poetry)Microwave engineeringEncoding (memory)Topology (electrical circuits)Quadrature (astronomy)Communication sourceQuantum mechanicsPhase (matter)Electronic circuitPhase qubitScheme (mathematics)Quantum systemPhotonQuantum information scienceQuantum key distributionPhase detectorQuantum opticsCoherent statesQuantum Information and CryptographyMechanical and Optical ResonatorsQuantum chaos and dynamical systems