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12 August 1992 Epitaxial growth of p+ silicon on a backside-thinned CCD for enhanced UV response
Michael E. Hoenk, Paula J. Grunthaner, Frank J. Grunthaner, Robert W. Terhune, Masoud M. Fattahi
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Proceedings Volume 1656, High-Resolution Sensors and Hybrid Systems; (1992) https://doi.org/10.1117/12.135951
Event: SPIE/IS&T 1992 Symposium on Electronic Imaging: Science and Technology, 1992, San Jose, CA, United States
Abstract
We have used low temperature molecular beam epitaxy to grow p+ silicon on a backside-thinned Reticon 512x5 12 CCD. The techniques for preparing the CCD for the growth and the processing conditions are discussed. A 50 A layer of silicon doped with 3x102 B/cm3 was grown at a substrate temperature of 450C. The ultraviolet quantum efficiency of the modified CCD was significantly higher than that of a CCD with an untreated back surface. Charging the back surface of the modified CCD with a Uv flood did not affect the quantum efficiency indicating that the bands were pinned by the added p+ layer. Gold contamination measured by secondary ion mass spectrometry to have a concentration of 1 x 1 0 18 cm3 near the back surface caused the UV quantum efficiency to be lower than optimum by reducing the minority carrier lifetime. 2.
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Michael E. Hoenk, Paula J. Grunthaner, Frank J. Grunthaner, Robert W. Terhune, and Masoud M. Fattahi "Epitaxial growth of p+ silicon on a backside-thinned CCD for enhanced UV response", Proc. SPIE 1656, High-Resolution Sensors and Hybrid Systems, (12 August 1992); https://doi.org/10.1117/12.135951
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Cited by 12 scholarly publications and 1 patent.
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KEYWORDS
Charge-coupled devices
Silicon
Ultraviolet radiation
Quantum efficiency
Gold
Contamination
Semiconducting wafers
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