A multi-tone excitation technique with sideband analysis quantifies ten pairwise nonlinear coupling coefficients across five modes in tensioned nanostrings, producing experimental reduced-order models that match finite-element simulations.
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The authors predict that measuring increased frequency variance in a megahertz resonator due to fluctuating nuclear spin polarization enables single nuclear spin detection with existing devices.
Simulations indicate that strained SiN resonators paired with multislice compressed-sensing protocols can reduce MRFM acquisition time by up to two orders of magnitude while preserving reconstruction fidelity.
citing papers explorer
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Experimental Quantification of Nonlinear Mode Coupling in Nanomechanical Resonators using Multi-tone Excitation
A multi-tone excitation technique with sideband analysis quantifies ten pairwise nonlinear coupling coefficients across five modes in tensioned nanostrings, producing experimental reduced-order models that match finite-element simulations.
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Near-resonant nuclear spin detection with megahertz mechanical resonators
The authors predict that measuring increased frequency variance in a megahertz resonator due to fluctuating nuclear spin polarization enables single nuclear spin detection with existing devices.
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From Cantilevers to Membranes: Advanced Scanning Protocols for Magnetic Resonance Force Microscopy
Simulations indicate that strained SiN resonators paired with multislice compressed-sensing protocols can reduce MRFM acquisition time by up to two orders of magnitude while preserving reconstruction fidelity.