Infrared Photocarrier Radiometry with dc Sub-Bandgap Optical Bias: Sensitivity Enhancement in the Detection of Deep Subsurface Electronic Defects in Si Wafers

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https://cadipt.mie.utoronto.ca/publications/infrared-photocarrier-radiometry-with-dc-sub-bandgap-optical-bias-sensitivity-enhancement-in-the-detection-of-deep-subsurface-electronic-defects-in-si-wafers/

Citation

J. Batista, A. Mandelis, D. Shaughnessy and B. Li, "Infrared Photocarrier Radiometry with dc Sub-Bandgap Optical Bias: Sensitivity Enhancement in the Detection of Deep Subsurface Electronic Defects in Si Wafers", paper 10O-03, Proc. 13th Int. Conf. Photoacoustic & Photothermal Phenomena, July 5 – 8, 2004, J. Physique IV France, 125, 557 – 559 (2005).

Infrared Photocarrier Radiometry with dc Sub-Bandgap Optical Bias: Sensitivity Enhancement in the Detection of Deep Subsurface Electronic Defects in Si Wafers

Permalink to Publication

https://cadipt.mie.utoronto.ca/publications/infrared-photocarrier-radiometry-with-dc-sub-bandgap-optical-bias-sensitivity-enhancement-in-the-detection-of-deep-subsurface-electronic-defects-in-si-wafers/

Citation

J. Batista, A. Mandelis, D. Shaughnessy and B. Li, "Infrared Photocarrier Radiometry with dc Sub-Bandgap Optical Bias: Sensitivity Enhancement in the Detection of Deep Subsurface Electronic Defects in Si Wafers", paper 10O-03, Proc. 13th Int. Conf. Photoacoustic & Photothermal Phenomena, July 5 – 8, 2004, J. Physique IV France, 125, 557 – 559 (2005).