Mid-wavelength infrared 1024x1024 pixel QWIP focal plane array

被引：0

作者：

Gunapala, SD ^{[1
]}

Bandara, SV ^{[1
]}

Liu, JK ^{[1
]}

Rafol, SB ^{[1
]}

Hill, C ^{[1
]}

Mumolo, J ^{[1
]}

Thang, J ^{[1
]}

Tidrow, M ^{[1
]}

LeVan, PD ^{[1
]}

机构：

[1] CALTECH, Jet Prop Lab, Pasadena, CA 91109 USA

来源：

INFRARED TECHNOLOGY AND APPLICATIONS XXX | 2004年 / 5406卷

关键词：

QWIPs; MWIR; large format focal planes;

D O I：

10.1117/12.540759

中图分类号：

O43 [光学];

学科分类号：

070207 ; 0803 ;

摘要：

A mid-wavelength 1024x1024 pixel quantum well infrared photodetector (QWIP) focal plane array has been demonstrated with excellent imagery. Noise equivalent differential temperature (NETD) of 19 mK was achieved at 95K operating temperature with f/2.5 optics at 300K background. Ibis focal plane array has shown background limited performance (BLIP) at 90K operating temperature with the same optics and background conditions. In this paper, we will discuss its performance in quantum efficiency, NETD, uniformity, and operability.

引用

页码：600 / 604

页数：5

共 9 条

[1] Demonstration of 1024x1024 Pixel Dual-band QWIP Focal Plane Array
Gunapala, S. D.
Bandara, S. V.
Liu, J. K.
Mumolo, J. M.
Ting, D. Z.
Hill, C. J.
Nguyen, J.
Rafol, S. B.
INFRARED TECHNOLOGY AND APPLICATIONS XXXVI, PTS 1 AND 2, 2010, 7660
[2] High operating temperature mid-wavelength infrared HgCdTe focal plane arrays
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He, Tian-Ying
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Zhao, Jun
JOURNAL OF INFRARED AND MILLIMETER WAVES, 2023, 42 (05) : 588 - 593
[3] Development of HD-Format 1280 x 1024 InAsSb-on-GaAs Two-Color MWIR/MWIR and SWIR/MWIR Focal-Plane Array Technology
Sharifi, Hasan
Terterian, Sevag
Tu, Clayton
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de Lyon, Terry
IMAGE SENSING TECHNOLOGIES: MATERIALS, DEVICES, SYSTEMS, AND APPLICATIONS VIII, 2021, 11723
[4] Modulation transfer function measurements of Type-II mid- wavelength and long-wavelength infrared superlattice focal plane arrays
Rafol, Sir B.
Gunapala, Sarath D.
Keo, Sam A.
Ting, David Z.
Soibel, Alex
Khoshakhlagh, Arezou
Hill, Cory J.
Luong, Edward
Fisher, Anita M.
Mumolo, Jason M.
Liu, John K.
Pepper, Brian
INFRARED PHYSICS & TECHNOLOGY, 2019, 96 : 251 - 261
[5] High performance Type IIInAs/GaSb superlattices for mid, long, and very long wavelength infrared focal plane arrays
Razeghi, M
Wei, Y
Gin, A
Hood, A
Yazdanpanah, V
Infrared Technology and Applications XXXI, Pts 1 and 2, 2005, 5783 : 86 - 97
[6] Uncooled Mid-wave Infrared Focal Plane Array Using Band Gap Engineered Mercury Cadmium Telluride Quantum Dot Coated Silicon ROIC
Chatterjee, Abhijit
Pendyala, Naresh Babu
Jagtap, Amardeep
Rao, K. S. R. Koteswara
E-JOURNAL OF SURFACE SCIENCE AND NANOTECHNOLOGY, 2019, 17 : 95 - 100
[7] 640 x 512 pixel narrow-band, four-band, and broad-band quantum well infrared photodetector focal plane arrays
Gunapala, SD
Bandara, SV
Liu, JK
Rafol, SB
Mumolo, JM
Shott, CA
Jones, R
Woolaway, J
Fastenau, JM
Liu, AK
Jhabvala, M
Choi, KK
INFRARED PHYSICS & TECHNOLOGY, 2003, 44 (5-6) : 411 - 425
[8] 640x512 pixel four-band, broad-band, and narrow-band. quantum well infrared photodetector focal plane arrays
Gunapala, SD
Bandara, SV
Liu, JK
Rafol, SB
Shott, CA
Jones, R
Laband, S
Woolaway, J
Fastenau, JM
Liu, AK
Jhabvala, M
Choi, KK
INFRARED TECHNOLOGY AND APPLICATIONS XXV111, PTS 1 AND 2, 2003, 4820 : 306 - 317
[9] A Demonstration of On-Chip Self-Registered Image Fusion Using a Voltage-Tunable Mid-Wave and Long-Wave Infrared Dual-Band Focal Plane Array
Vaillancourt, Jarrod
Blasch, Erik
Gu, Guiru
Lu, Xuejun
Reinhardt, Kitt
IEEE SENSORS JOURNAL, 2016, 16 (11) : 4374 - 4379

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