Spurious charge in SENSEI Skipper-CCDs originates primarily from the serial register; tri-level clocking reduces single-electron density by a factor of approximately 7.
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3 Pith papers cite this work. Polarity classification is still indexing.
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CONNIE's first Skipper-CCD run at Angra-2 yields no CEνNS excess, comparable prior limits on neutrino rates, improved bounds on light vector mediators, and record surface DM-electron limits via diurnal modulation.
50 nm and 100 nm aluminum coatings on skipper-CCDs suppress optical light by more than 99.6 percent from 650 to 1000 nm with no efficiency loss for 5.9 and 6.4 keV X-rays.
citing papers explorer
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Characterization of Spurious Charge in SENSEI Skipper-CCDs
Spurious charge in SENSEI Skipper-CCDs originates primarily from the serial register; tri-level clocking reduces single-electron density by a factor of approximately 7.
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Searches for CE{\nu}NS and Physics beyond the Standard Model using Skipper-CCDs at CONNIE
CONNIE's first Skipper-CCD run at Angra-2 yields no CEνNS excess, comparable prior limits on neutrino rates, improved bounds on light vector mediators, and record surface DM-electron limits via diurnal modulation.
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Light-tight skipper-CCDs for X-ray detection in space
50 nm and 100 nm aluminum coatings on skipper-CCDs suppress optical light by more than 99.6 percent from 650 to 1000 nm with no efficiency loss for 5.9 and 6.4 keV X-rays.