论文信息 - Performance and Modeling of the MWIR HgCdTe Electron Avalanche Photodiode

Performance and Modeling of the MWIR HgCdTe Electron Avalanche Photodiode

The operation of the mid-wave infrared (MWIR) HgCdTe cylindrical electron injection avalanche photodiode (e-APD) is described. The measured gain and excess noise factor are related to the to the collection region fill factor. A 2D diffusion model calculates the time dependent response and steady state pixel point spread function for cylindrical diodes, and predicts bandwidths near 1 GHz for small geometries. A 2 μm diameter spot scan system was developed for point spread function and crosstalk measurements at 80 K. An electron diffusion length of 13.4 μm was extracted from spot scan data. Bandwidth data are shown that indicate bandwidths in excess of 300 MHz for small unit cells geometries. Dark current data, at high gain levels, indicate an effective gain normalized dark density count as low as 1000 counts per μs per cm2 at an APD gain of 444. A junction doping profile was determined from capacitance-voltage data. Spectral response data shows a gain independent characteristic.

[2] Richard Scritchfield,et al. Gated IR Imaging with 128 × 128 HgCdTe Electron Avalanche Photodiode FPA , 2008 .

[3] M. Kinch,et al. The HgCdTe electron avalanche photodiode , 2006, 2006 Digest of the LEOS Summer Topical Meetings.

[4] John Marciniec,et al. HgCdTe MWIR Back-Illuminated Electron-Initiated Avalanche Photodiode Arrays , 2007 .

[5] Jean-Paul Chamonal,et al. Impulse Response Time Measurements in Hg0.7Cd0.3Te MWIR Avalanche Photodiodes , 2008 .

[6] John Marciniec,et al. Characterization of HgCdTe MWIR Back-Illuminated Electron-Initiated Avalanche Photodiodes , 2008 .

[7] Gérard Destefanis,et al. Gain and Dark Current Characteristics of Planar HgCdTe Avalanche Photo Diodes , 2007 .

[8] G. E. Stillman,et al. Chapter 5 Avalanche Photodiodes , 1977 .