DFMI resolves absolute ranging ambiguity by estimating modulation depth m and phase φ; Fisher analysis and simulations identify valleys of robustness that suppress systematic errors from hardware imperfections.
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Numerical study with realistic LISA orbits and Bayesian methods finds that scalar ULDM signals can be discriminated from quasi-monochromatic GW signals.
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Fundamental Limitations of Absolute Ranging via Deep Frequency Modulation Interferometry
DFMI resolves absolute ranging ambiguity by estimating modulation depth m and phase φ; Fisher analysis and simulations identify valleys of robustness that suppress systematic errors from hardware imperfections.
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Discriminating scalar ultralight dark matter from quasi-monochromatic gravitational waves in LISA
Numerical study with realistic LISA orbits and Bayesian methods finds that scalar ULDM signals can be discriminated from quasi-monochromatic GW signals.