Optimal waveform estimation of stochastic quantum signals

POSTER

Abstract

In experiments like the upcoming Gravity from Quantum Entanglement of Space-Time (GQuEST), the variance instead of the mean of a Gaussian quantum state encodes the parameter of interest. For GQuEST, this is the scale factor of the Verlinde-Zurek theory of Quantum Gravity. Although the Quantum Fisher information of Gaussian states is well-studied, the optimal protocol (initial quantum state and measurement scheme) for waveform estimation of a stochastic signal is unknown. We derive the optimal protocol and suggest how it could improve the search for Quantum Gravity. We also discuss the related problem of simultaneous estimation of mean and variance for sensing unmodelled physics and performing tests of general relativity using gravitational-wave detectors like LIGO.

*This research is supported by the Australian Research Council Centre of Excellence for Gravitational Wave Discovery (Project No. CE170100004). J.W.G. and this research are supported by an Australian Government Research Training Program (RTP) Scholarship and also partially supported by the US NSF grant PHY-2011968. In addition, Y.C. acknowledges the support by the Simons Foundation (Award Number 568762). T.G. acknowledges funding provided by the Institute for Quantum Information and Matter and the Quantum Science and Technology Scholarship of the Israel Council for Higher Education. S.A.H. acknowledges support through an Australian Research Council Future Fellowship grant FT210100809.

Publication: Gardner, Gefen, Haine, Hope, Preskill, Chen, McCuller, 2024 (in preparation).

Presenters

  • James Gardner

    • The Australian National University

Authors

  • James Gardner

    • The Australian National University

  • Tuvia Gefen

    • Caltech

  • Simon A Haine

    • ANU
    • Department of Quantum Science and Technology and Department of Fundamental and Theoretical Physics, Research School of Physics, The Australian National University, Canberra AC

  • Joseph J Hope

    • ANU
    • Department of Quantum Science and Technology and Department of Fundamental and Theoretical Physics, Research School of Physics, The Australian National University, Canberra AC

  • John P Preskill

    • California Institute of Technology

  • Yanbei Chen

    • Caltech

  • Lee McCuller

    • Caltech
    • California Institute of Technology