NASA Technical Reports Server (NTRS) 19830020268: High Density Schottky Barrier IRCCD Sensors For SWIR Applications At Intermediate Temperature - Info and Reading Options
By NASA Technical Reports Server (NTRS)
"NASA Technical Reports Server (NTRS) 19830020268: High Density Schottky Barrier IRCCD Sensors For SWIR Applications At Intermediate Temperature" and the language of the book is English.
“NASA Technical Reports Server (NTRS) 19830020268: High Density Schottky Barrier IRCCD Sensors For SWIR Applications At Intermediate Temperature” Metadata:
- Title: ➤ NASA Technical Reports Server (NTRS) 19830020268: High Density Schottky Barrier IRCCD Sensors For SWIR Applications At Intermediate Temperature
- Author: ➤ NASA Technical Reports Server (NTRS)
- Language: English
Edition Identifiers:
- Internet Archive ID: NASA_NTRS_Archive_19830020268
AI-generated Review of “NASA Technical Reports Server (NTRS) 19830020268: High Density Schottky Barrier IRCCD Sensors For SWIR Applications At Intermediate Temperature”:
"NASA Technical Reports Server (NTRS) 19830020268: High Density Schottky Barrier IRCCD Sensors For SWIR Applications At Intermediate Temperature" Description:
The Internet Archive:
Monolithic 32 x 64 and 64 x 1:128 palladium silicide (Pd2Si) interline transfer infrared charge coupled devices (IRCCDs) sensitive in the 1 to 3.5 micron spectral band were developed. This silicon imager exhibits a low response nonuniformity of typically 0.2 to 1.6% rms, and was operated in the temperature range between 40 to 140 K. Spectral response measurements of test Pd2Si p-type Si devices yield quantum efficiencies of 7.9% at 1.25 microns, 5.6% at 1.65 microns 2.2% at 2.22 microns. Improvement in quantum efficiency is expected by optimizing the different structural parameters of the Pd2Si detectors. The spectral response of the Pd2Si detectors fit a modified Fowler emission model. The measured photo-electric barrier height for the Pd2Si detectors is 0.34 eV and the measured quantum efficiency coefficient, C1, is 19%/eV. The dark current level of Pd2Si Schottky barrier focal plane arrays (FPAs) is sufficiently low to enable operation at intermediate temperatures at TV frame rates. Typical dark current level measured at 120 K on the FPA is 2 nA/sq cm. The operating temperature of the Pd2Si FPA is compatible with passive cooler performance. In addition, high density Pd2Si Schottky barrier FPAs are manufactured with high yield and therefore represent an economical approach to short wavelength IR imaging. A Pd2Si Schottky barrier image sensor for push-broom multispectral imaging in the 1.25, 1.65, and 2.22 micron bands is being studied. The sensor will have two line arrays (dual band capability) of 512 detectors each, with 30 micron center-to-center detector spacing. The device will be suitable for chip-to-chip abutment, thus providing the capability to produce large, multiple chip focal planes with contiguous, in-line sensors.
Read “NASA Technical Reports Server (NTRS) 19830020268: High Density Schottky Barrier IRCCD Sensors For SWIR Applications At Intermediate Temperature”:
Read “NASA Technical Reports Server (NTRS) 19830020268: High Density Schottky Barrier IRCCD Sensors For SWIR Applications At Intermediate Temperature” by choosing from the options below.
Available Downloads for “NASA Technical Reports Server (NTRS) 19830020268: High Density Schottky Barrier IRCCD Sensors For SWIR Applications At Intermediate Temperature”:
"NASA Technical Reports Server (NTRS) 19830020268: High Density Schottky Barrier IRCCD Sensors For SWIR Applications At Intermediate Temperature" is available for download from The Internet Archive in "texts" format, the size of the file-s is: 13.52 Mbs, and the file-s went public at Mon Aug 15 2016.
Legal and Safety Notes
Copyright Disclaimer and Liability Limitation:
A. Automated Content Display
The creation of this page is fully automated. All data, including text, images, and links, is displayed exactly as received from its original source, without any modification, alteration, or verification. We do not claim ownership of, nor assume any responsibility for, the accuracy or legality of this content.
B. Liability Disclaimer for External Content
The files provided below are solely the responsibility of their respective originators. We disclaim any and all liability, whether direct or indirect, for the content, accuracy, legality, or any other aspect of these files. By using this website, you acknowledge that we have no control over, nor endorse, the content hosted by external sources.
C. Inquiries and Disputes
For any inquiries, concerns, or issues related to the content displayed, including potential copyright claims, please contact the original source or provider of the files directly. We are not responsible for resolving any content-related disputes or claims of intellectual property infringement.
D. No Copyright Ownership
We do not claim ownership of any intellectual property contained in the files or data displayed on this website. All copyrights, trademarks, and other intellectual property rights remain the sole property of their respective owners. If you believe that content displayed on this website infringes upon your intellectual property rights, please contact the original content provider directly.
E. Fair Use Notice
Some content displayed on this website may fall under the "fair use" provisions of copyright law for purposes such as commentary, criticism, news reporting, research, or educational purposes. If you believe any content violates fair use guidelines, please reach out directly to the original source of the content for resolution.
Virus Scanning for Your Peace of Mind:
The files provided below have already been scanned for viruses by their original source. However, if you’d like to double-check before downloading, you can easily scan them yourself using the following steps:
How to scan a direct download link for viruses:
- 1- Copy the direct link to the file you want to download (don’t open it yet). (a free online tool) and paste the direct link into the provided field to start the scan.
- 2- Visit VirusTotal (a free online tool) and paste the direct link into the provided field to start the scan.
- 3- VirusTotal will scan the file using multiple antivirus vendors to detect any potential threats.
- 4- Once the scan confirms the file is safe, you can proceed to download it with confidence and enjoy your content.
Available Downloads
- Source: Internet Archive
- Internet Archive Link: Archive.org page
- All Files are Available: Yes
- Number of Files: 12
- Number of Available Files: 12
- Added Date: 2016-08-15 03:25:31
- PPI (Pixels Per Inch): 600
- OCR: ABBYY FineReader 11.0
Available Files:
1- Text PDF
- File origin: original
- File Format: Text PDF
- File Size: 0.00 Mbs
- File Name: NASA_NTRS_Archive_19830020268.pdf
- Direct Link: Click here
2- Metadata
- File origin: original
- File Format: Metadata
- File Size: 0.00 Mbs
- File Name: NASA_NTRS_Archive_19830020268_files.xml
- Direct Link: Click here
3- Metadata
- File origin: original
- File Format: Metadata
- File Size: 0.00 Mbs
- File Name: NASA_NTRS_Archive_19830020268_meta.sqlite
- Direct Link: Click here
4- Metadata
- File origin: original
- File Format: Metadata
- File Size: 0.00 Mbs
- File Name: NASA_NTRS_Archive_19830020268_meta.xml
- Direct Link: Click here
5- JPEG Thumb
- File origin: original
- File Format: JPEG Thumb
- File Size: 0.00 Mbs
- File Name: __ia_thumb.jpg
- Direct Link: Click here
6- Animated GIF
- File origin: derivative
- File Format: Animated GIF
- File Size: 0.00 Mbs
- File Name: NASA_NTRS_Archive_19830020268.gif
- Direct Link: Click here
7- Abbyy GZ
- File origin: derivative
- File Format: Abbyy GZ
- File Size: 0.00 Mbs
- File Name: NASA_NTRS_Archive_19830020268_abbyy.gz
- Direct Link: Click here
8- DjVuTXT
- File origin: derivative
- File Format: DjVuTXT
- File Size: 0.00 Mbs
- File Name: NASA_NTRS_Archive_19830020268_djvu.txt
- Direct Link: Click here
9- Djvu XML
- File origin: derivative
- File Format: Djvu XML
- File Size: 0.00 Mbs
- File Name: NASA_NTRS_Archive_19830020268_djvu.xml
- Direct Link: Click here
10- Single Page Processed JP2 ZIP
- File origin: derivative
- File Format: Single Page Processed JP2 ZIP
- File Size: 0.01 Mbs
- File Name: NASA_NTRS_Archive_19830020268_jp2.zip
- Direct Link: Click here
11- Scandata
- File origin: derivative
- File Format: Scandata
- File Size: 0.00 Mbs
- File Name: NASA_NTRS_Archive_19830020268_scandata.xml
- Direct Link: Click here
12- Archive BitTorrent
- File origin: metadata
- File Format: Archive BitTorrent
- File Size: 0.00 Mbs
- File Name: NASA_NTRS_Archive_19830020268_archive.torrent
- Direct Link: Click here
Search for “NASA Technical Reports Server (NTRS) 19830020268: High Density Schottky Barrier IRCCD Sensors For SWIR Applications At Intermediate Temperature” downloads:
Visit our Downloads Search page to see if downloads are available.
Find “NASA Technical Reports Server (NTRS) 19830020268: High Density Schottky Barrier IRCCD Sensors For SWIR Applications At Intermediate Temperature” in Libraries Near You:
Read or borrow “NASA Technical Reports Server (NTRS) 19830020268: High Density Schottky Barrier IRCCD Sensors For SWIR Applications At Intermediate Temperature” from your local library.
Buy “NASA Technical Reports Server (NTRS) 19830020268: High Density Schottky Barrier IRCCD Sensors For SWIR Applications At Intermediate Temperature” online:
Shop for “NASA Technical Reports Server (NTRS) 19830020268: High Density Schottky Barrier IRCCD Sensors For SWIR Applications At Intermediate Temperature” on popular online marketplaces.
- Ebay: New and used books.