Quantum Harmonic Oscillator Spectrum Analyzers
Jonas Keller, Pan‐Yu Hou, Katherine C. McCormick, Daniel C. Cole, Stephen D. Erickson, Jenny J. Wu, A. C. Wilson, D. Leibfried
Abstract
Characterization and suppression of noise are essential for the control of harmonic oscillators in the quantum regime. We measure the noise spectrum of a quantum harmonic oscillator from low frequency to near the oscillator resonance by sensing its response to amplitude modulated periodic drives with a qubit. Using the motion of a trapped ion, we experimentally demonstrate two different implementations with combined sensitivity to noise from 500 Hz to 600 kHz. We apply our method to measure the intrinsic noise spectrum of an ion trap potential in a previously unaccessed frequency range.
Topics & Concepts
PhysicsNoise (video)QubitHarmonic oscillatorTrapped ion quantum computerQuantum noiseMeasure (data warehouse)HarmonicHarmonic spectrumQuantumIon trapSensitivity (control systems)Simple harmonic motionQuantum mechanicsIonHarmonicsQuantum error correctionElectronic engineeringComputer scienceVoltageDatabaseImage (mathematics)EngineeringArtificial intelligenceMechanical and Optical ResonatorsQuantum Information and CryptographySpectroscopy and Quantum Chemical Studies