Researching | The simulation of intra-pixel sensitivity for HgCdTe infrared focal plane array

Journals >Journal of Infrared and Millimeter Waves >Volume 40 >Issue 5 >Page 673 > Article

Journal of Infrared and Millimeter Waves
Vol. 40, Issue 5, 673 (2021)

The simulation of intra-pixel sensitivity for HgCdTe infrared focal plane array

Li ZHONG^1、3, Xiao-Feng SU¹, Wei-Da HU¹, and Fan-Sheng CHEN^1、2、*

Author Affiliations

¹Key Laboratory of Intelligent Infrared Perception，Shanghai Institute of Technical Physics，Chinese Academy；of Sciences，Shanghai 200083，China

²Hangzhou Institute for Advanced Study，University of Chinese Academy of Sciences，Hangzhou 310024，China

³University of Chinese Academy of Sciences，Beijing 100049，China

show less

DOI: 10.11972/j.issn.1001-9014.2021.05.014 Cite this Article

Li ZHONG, Xiao-Feng SU, Wei-Da HU, Fan-Sheng CHEN. The simulation of intra-pixel sensitivity for HgCdTe infrared focal plane array[J]. Journal of Infrared and Millimeter Waves, 2021, 40(5): 673 Copy Citation Text

show less

References

[1] C Ketchazo, T Viale, O Boulade et al. Intrapixel measurement techniques on large focal plane arrays for astronomical applications: a comparative study, 10562, 105623D(2017).

[2] Howell , Steve , B et al. Detection and Measurement of Poorly Sampled Point Sources Imaged With 2-D Array. The Astronomical Journal, 112, 1302(1996).

[3] T R Lauer. The Photometry of Undersampled Point-Spread Functions. Publications of the Astronomical Society of the Pacific, 111, 1434-1443(1999).

[4] J Anderson, I R King. Toward High‐Precision Astrometry with WFPC2. I. Deriving an Accurate Point‐Spread Function. Publications of the Astronomical Society of the Pacific, 112, 1360-1382(2000).

[5] D Kavaldjiev, Z Ninkov. Subpixel sensitivity map for a charge-coupled device. Optical engineering, 37, 948-954(1998).

[6] N Barron, M Borysow, K Beyerlein et al. Subpixel Response Measurement of Near‐Infrared Detectors. Publications of the Astronomical Society of the Pacific, 119, 466-475(2007).

[7] S B Mahato, J De Ridder, G Meynants et al. Measuring intra-pixel sensitivity variations of a CMOS image sensor. IEEE Sensors Journal, 18, 2722-2728(2018).

[8] C Shapiro, E Huff, R Smith. Intra-pixel response characterization of a HgCdTe near infrared detector with a pronounced crosshatch pattern, 10709, 1070936(2018).

[9] C A Shapiro, R M Smith, E M Huff et al. Precision Projector Laboratory: detector characterization with an astronomical emulation testbed. Journal of Astronomical Telescopes, 5, 041503(2019).

[10] G Soehnel, A Tanbakuchi. Simulation and experimental characterization of the point spread function, pixel saturation, and blooming of a mercury cadmium telluride focal plane array. Applied Optics, 51, 7987-7993(2012).

[11] D Vorobiev, A Irwin, Z Ninkov et al. Direct measurement of the Kepler Space Telescope CCD’s intrapixel response function. Journal of Astronomical Telescopes, 5, 041507(2019).

[12] C Ketchazo, T Viale, O Boulade et al. A new technique of characterization of intrapixel response dedicated to astronomical detectors. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, 787, 265-269(2015).

[13] T Viale, C Ketchazo, N Guérineau et al. High accuracy measurements of the intrapixel sensitivity of VIS to LWIR astronomical detectors: experimental demonstration, 9915, 991517(2016).

[14] J Berthoz, R Grille, L Rubaldo et al. Modeling and Characterization of MTF and Spectral Response at Small Pitch on Mercury Cadmium Telluride. Journal of Electronic Materials, 44, 3157-3162(2015).

[15] M Vallone, M Goano, F Bertazzi et al. Simulation of small-pitch HgCdTe photodetectors. Journal of Electronic Materials, 46, 5458-5470(2017).

[16] M Vallone, M Goano, F Bertazzi et al. Diffusive-Probabilistic Model for Inter-Pixel Crosstalk in HgCdTe Focal Plane Arrays. IEEE Journal of the Electron Devices Society, 6, 664-673(2018).

[17] B Appleton, T Hubbard, A Glasmann et al. Parametric numerical study of the modulation transfer function in small-pitch InGaAs/InP infrared arrays with refractive microlenses. Optics Express, 26, 5310-5326(2018).

[18] J P Lavine, W C Chang, C N Anagnostopoulos et al. Monte Carlo simulation of the photoelectron crosstalk in silicon imaging devices. IEEE transactions on Electron Devices, 32, 2087-2091(1985).

[19] R M Fastow, A Strum. Monte Carlo simulations of the cross talk in InSb matrices, 2274, 136-146(1994).

[20] V Polovinkin, V A Stuchinsky, A Vishnyakov et al. Monte Carlo Simulation of Photoelectric Characteristics of Mercury–Cadmium–Tellurium- Based Infrared Focal-Plane-Array Detectors. IEEE Transactions on Electron Devices, 65, 4924-4930(2018).

[21] I I Lee, V G Polovinkin. Dependence of the Modulation Transfer Function on the Material and Design Parameters of HgCdTe IR FPAs. IEEE Transactions on Electron Devices, 67, 3175-3179(2020).

[22] J Chu, B Li, K Liu et al. Empirical rule of intrinsic absorption spectroscopy in Hg1-xCdxTe. Journal of applied physics, 75, 1234-1235(1994).

[23] A V Vishnyakov, V A Stuchinsky, D V Brunev et al. Determination of charge-carrier diffusion length in the photosensing layer of HgCdTe n-on-p photovoltaic infrared focal plane array detectors. Applied Physics Letters, 104, 092112(2014).

[24] A V Vishnyakov, V A Stuchinsky, D V Brunev et al. Analysis of charge-carrier diffusion in the photosensing films of HgCdTe infrared focal plane array photodetectors. Journal of Applied Physics, 118, 124508(2015).

Get PDF(in Chinese)

Figures&Tables (7)

References (24)

Copy Citation Text

Li ZHONG, Xiao-Feng SU, Wei-Da HU, Fan-Sheng CHEN. The simulation of intra-pixel sensitivity for HgCdTe infrared focal plane array[J]. Journal of Infrared and Millimeter Waves, 2021, 40(5): 673

Download Citation

Save the article for my favorites

Paper Information

Recommended Topics

laser devices and laser physics

Lasers and Laser Optics

laser manufacturing

Instrumentation, Measurement and Metrology

Set citation alerts for the article

Please enter your email address