HERON is a proposed mountain-based hybrid radio array that uses high elevation and long radio propagation to achieve large effective area for detecting UHE Earth-skimming tau neutrinos and conducting neutrino astronomy.
Title resolution pending
4 Pith papers cite this work. Polarity classification is still indexing.
4
Pith papers citing it
years
2026 4verdicts
UNVERDICTED 4representative citing papers
Linear passband tilts shift best-fit w0 and wa by ~0.025 sigma and enlarge the w0-wa contour area by ~5% per 1%/100nm increase; quadratic tilts yield less conclusive results.
NectarCAM camera for CTAO medium-sized telescopes reports time and charge resolution performance plus calibration updates with first unit shipment planned for summer 2026.
QUBIC uses spectral imaging to map CMB polarization and improve foreground removal with frequency, component, and neural-network map-making methods.
citing papers explorer
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Catching UHE Neutrinos with HERON
HERON is a proposed mountain-based hybrid radio array that uses high elevation and long radio propagation to achieve large effective area for detecting UHE Earth-skimming tau neutrinos and conducting neutrino astronomy.
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Impact of Calibration Systematics on Dark Energy Constraints from LSST Type Ia Supernovae
Linear passband tilts shift best-fit w0 and wa by ~0.025 sigma and enlarge the w0-wa contour area by ~5% per 1%/100nm increase; quadratic tilts yield less conclusive results.
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Towards the Deployment of the First NectarCAM, a Medium-Sized-Telescope Camera for the Cherenkov Telescope Array Observatory
NectarCAM camera for CTAO medium-sized telescopes reports time and charge resolution performance plus calibration updates with first unit shipment planned for summer 2026.
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Mapping the CMB with QUBIC spectral imaging
QUBIC uses spectral imaging to map CMB polarization and improve foreground removal with frequency, component, and neural-network map-making methods.