Pocket pumped image analysis

The pocket pumping technique is used to detect small electron trap sites. These traps, if present, degrade CCD charge transfer efficiency. To reveal traps in the active area, a CCD is illuminated with a flat field and, before image is read out, accumulated charges are moved back and forth number of times in parallel direction. As charges are moved over a trap, an electron is removed from the original pocket and re-emitted in the following pocket. As process repeats one pocket gets depleted and the neighboring pocket gets excess of charges. As a result a “dipole” signal appears on the otherwise flat background level. The amplitude of the dipole signal depends on the trap pumping efficiency. This paper is focused on trap identification technique and particularly on new methods developed for this purpose. The sensor with bad segments was deliberately chosen for algorithms development and to demonstrate sensitivity and power of new methods in uncovering sensor defects.

[1]  Armin Karcher,et al.  Charge trap identification for proton-irradiated p+ channel CCDs , 2010, Astronomical Telescopes + Instrumentation.

[2]  A. I. Kotov,et al.  CCD Base Line Subtraction Algorithms , 2009, IEEE Transactions on Nuclear Science.

[3]  David Hall,et al.  The relationship between pumped traps and signal loss in buried channel CCDs , 2013, Optics & Photonics - Optical Engineering + Applications.

[4]  A. Hussain,et al.  Improving radiation tolerance in e2v CCD sensors , 2009, Optical Engineering + Applications.

[5]  Michael E. Levi,et al.  Proton radiation damage in high-resistivity n-type silicon CCDs , 2002, IS&T/SPIE Electronic Imaging.