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· 2024 · arXiv 2404.08572

3 Pith papers cite this work. Polarity classification is still indexing.

3 Pith papers citing it

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Quantum sensing of high-frequency gravitational waves with ion crystals

gr-qc · 2025-12-22 · unverdicted · novelty 6.0

Ion crystals detect high-frequency gravitational waves via resonant drumhead mode excitation and spin entanglement for beyond-SQL readout, with sensitivity scaling with crystal size.

Probing high-frequency gravitational waves with entangled vibrational qubits in linear Paul traps

hep-ph · 2025-09-26 · unverdicted · novelty 6.0

Proposes entangled vibrational qubits in linear Paul traps for detecting high-frequency gravitational waves via graviton-photon conversion or relative motion, with N-squared sensitivity enhancement.

Super-Heisenberg protocol for dark matter and high-frequency gravitational wave search

hep-ph · 2026-04-24 · unverdicted · novelty 5.0

A protocol using squeezed states in 2D ion crystals in a Penning trap achieves super-Heisenberg sensitivity for axion-like particles, dark photons, and high-frequency gravitational waves while accounting for decoherence.

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Showing 3 of 3 citing papers.

Quantum sensing of high-frequency gravitational waves with ion crystals gr-qc · 2025-12-22 · unverdicted · none · ref 67
Ion crystals detect high-frequency gravitational waves via resonant drumhead mode excitation and spin entanglement for beyond-SQL readout, with sensitivity scaling with crystal size.
Probing high-frequency gravitational waves with entangled vibrational qubits in linear Paul traps hep-ph · 2025-09-26 · unverdicted · none · ref 12
Proposes entangled vibrational qubits in linear Paul traps for detecting high-frequency gravitational waves via graviton-photon conversion or relative motion, with N-squared sensitivity enhancement.
Super-Heisenberg protocol for dark matter and high-frequency gravitational wave search hep-ph · 2026-04-24 · unverdicted · none · ref 45
A protocol using squeezed states in 2D ion crystals in a Penning trap achieves super-Heisenberg sensitivity for axion-like particles, dark photons, and high-frequency gravitational waves while accounting for decoherence.

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