Global detector network to search for high-frequency gravitational waves (GravNet): conceptual design

Dorian Amaral; Diego Blas; Yuliia Borysenkova; Dmitry Budker; Alessandro D'Elia; Giorgio Dho; Alejandro D\'iaz-Morcillo; Daniele Di Gioacchino; Sebastian Ellis; Claudio Gatti; Benito Gimeno; Jordan Gu\'e; Stefan Horodenski; Saarik Kalia; Younggeun Kim; Tom Krokotsch; Tomas Kvietkauskas; Adri\'an Lamb\'ies-Asensio; Carlo Ligi; Giovanni Maccarrone; Giovanni Mazzitelli; Juan Monz\'o-Cabrera; Jos\'e R. Navarro-Madrid; Jos\'e Reina-Valero; Alessio Rettaroli; Kristof Schmieden; Tim Schneemann; Matthias Schott; Simone Tocci; Sandro Tomassini; Oleg Tretiak; Luca Visinelli; Changhao Xu

arXiv:2603.24645·astro-ph.IM·March 27, 2026

Global detector network to search for high-frequency gravitational waves (GravNet): conceptual design

Dorian Amaral, Diego Blas, Yuliia Borysenkova, Dmitry Budker, Alessandro D'Elia, Giorgio Dho, Alejandro D\'iaz-Morcillo, Daniele Di Gioacchino, Sebastian Ellis, Claudio Gatti, Benito Gimeno, Jordan Gu\'e, Stefan Horodenski, Saarik Kalia, Younggeun Kim, Tom Krokotsch

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TL;DR

GravNet is a proposed global network of geographically separated detectors designed to search for high-frequency gravitational waves in the MHz to GHz range, using correlated measurements to enhance detection sensitivity.

Contribution

This paper introduces the GravNet concept, a novel approach for high-frequency gravitational wave detection using synchronized measurements across multiple detectors.

Findings

01

Demonstrated a proof-of-concept experiment with a non-superconducting cavity.

02

Outlined data analysis strategies for correlated signal detection.

03

Discussed future development prospects for GravNet as a global network.

Abstract

We propose GravNet (Global detector network to search for high-frequency gravitational waves), a novel experimental scheme enabling the search for gravitational waves in the MHz to GHz frequency range. Such high-frequency gravitational waves could arise from a variety of phenomena connected to some of the most pressing and fundamental questions in modern cosmology. The GravNet concept is based on synchronous measurements of signals from multiple experimental measurement devices operating at geographically separated locations. While gravitational-wave-induced signatures may be present in the signal of a single detector, distinguishing them from instrumental or environmental noise is highly challenging. By analyzing correlations between signals from several distant detectors, the detection significance is substantially enhanced, while simultaneously enabling studies of the nature and…

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Taxonomy

TopicsPulsars and Gravitational Waves Research · Atomic and Subatomic Physics Research · Cosmology and Gravitation Theories