C. Bebek scite author profile

Abstract-P-channel, backside illuminated silicon CCDs were developed and fabricated on high-resistivity n-type silicon. Devices have been exposed up to 1 × 10 11 protons/cm 2 at 12 MeV. The charge transfer efficiency and dark curent were measured as a function of radiation dose. These CCDs were found to be significantly more radiation tolerant than conventional n-channel devices. This could prove to be a major benefit for long duration space missions.

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Physics of fully depleted CCDs

Holland

Bebek²,

Kolbe³

et al. 2014

J. Inst.

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In this work we present simple, physics-based models for two effects that have been noted in the fully depleted CCDs that are presently used in the Dark Energy Survey Camera. The first effect is the observation that the point-spread function increases slightly with the signal level. This is explained by considering the effect on charge-carrier diffusion due to the reduction in the magnitude of the channel potential as collected signal charge acts to partially neutralize the fixed charge in the depleted channel. The resulting reduced voltage drop across the carrier drift region decreases the vertical electric field and increases the carrier transit time. The second effect is the observation of low-level, concentric ring patterns seen in uniformly illuminated images. This effect is shown to be most likely due to lateral deflection of charge during the transit of the photogenerated carriers to the potential wells as a result of lateral electric fields. The lateral fields are a result of space charge in the fully depleted substrates arising from resistivity variations inherent to the growth of the high-resistivity silicon used to fabricate the CCDs.

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The Zwicky transient facility observing system

Smith

Dekany²,

Bebek

et al. 2014

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The Zwicky Transient Facility (ZTF) is a synoptic optical survey for hjgh-cadence time-domain astronomy. Building upon the experience and infrastructure of the highly successful Palomar Transient Factory (PTF) team , ZTF will survey more than an order of magnitude faster than PTF in sky area and volume in order to identify rare, rapidly varying optical sources. These sources will include a trove of supernovae, exotic explosive transients, unusual stellar variables, compact binaries, active ga lactic nuclei, and asteroids. The single-visit depth of 20.4 mag is well matched to spectroscopic fo llow-up observations, while the co-added images wi ll provide wide sky coverage 1.5 -2 mag deeper than SDSS. The ZTF survey wi ll cover the entire Northern Sky and revisit fields on timescales of a few hours, providing hundreds of visits per field each year, an unprecedented cadence, as required to detect fast transients and variability. This high-cadence survey is enabled by an observing system based on a new camera having 47 deg 2 field of view -a factor of 6.5 greater than the existing PTF camera -equipped with fast readout electronics, a large, fast exposure shutter, faster telescope and dome drives, and various measures to optimize delivered image quality . Our project has already received an initial procurement of e2v wafer-sca le CCDs and we are currently fabricating the camera cryostat. International partners and the NSF committed funds in June 2014 so construction can proceed as planned to commence engineering commissioning in 20 16 and begin operations in 20 I 7. Public release wi II allow broad utilization of these data by the US astronomi cal commun ity. ZTF wi ll also promote the development of transient and variable science methods in preparation for the seminal first light of LSST.

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C. Bebek

Charge trap identification for proton-irradiated p+ channel CCDs

Astro2020 APC White Paper: The MegaMapper: a z > 2 spectroscopic instrument for the study of Inflation and Dark Energy

Proton radiation damage in p-channel CCDs fabricated on high-resistivity silicon

Physics of fully depleted CCDs

The Zwicky transient facility observing system

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