Abstract
The Kerr Parametric Oscillator (KPO) is a nonlinear resonator system that is often described as a synthetic two-level system. In the presence of noise, the system switches between two states via a fluctuating trajectory in phase space, instead of following a straight path. The presence of such fluctuating trajectories makes it hard to establish a precise count or even a useful definition, of the “lifetime” of the state. Addressing this issue, we compare several rate counting methods that allow to estimate a lifetime for the levels. In particular, we establish that a peak in the Allan variance of fluctuations can also be used to determine the levels’ lifetime. Our work provides a basis for characterizing KPO net- works for simulated annealing where an accurate determination of the state lifetime is of fundamental importance. Show more
Permanent link
https://doi.org/10.3929/ethz-b-000578481Publication status
publishedExternal links
Journal / series
Applied Physics LettersVolume
Pages / Article No.
Publisher
American Institute of PhysicsSubject
Phase space methods; Stochastic processes; Oscillators; Frequency measurement; Nonlinear systemsOrganisational unit
03571 - Sigrist, Manfred / Sigrist, Manfred
09594 - Zilberberg, Oded (ehemalig) / Zilberberg, Oded (former)
03906 - Degen, Christian / Degen, Christian
Funding
177198 - Zeptonewton force sensing on a membrane resonator platform (SNF)
190078 - Electronic and photonic quantum engineered systems (SNF)
More
Show all metadata