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Almost ready for prime time: Deep UV photodetectors head to real-world testing

Renewed interest emerges to connect deep UV detector researchers with industry for future space-borne solar-blind imaging platforms

Date:
April 19, 2022
Source:
American Institute of Physics
Summary:
Researchers are asking why, after decades of development and promising results, ultrawide bandgap photodetectors with deep UV capabilities haven't enjoyed widespread adoption, and are taking stock of advancements and challenges in the field. Unlike their silicon-based counterparts, UWBG photodetectors made from aluminum gallium nitride and gallium (III) oxide are more efficient, can tailor cutoff wavelengths, and do not need optical filters to reject visible or infrared wavelengths for solar-blind applications.
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Numerous devices and detectors sense and catalog deep ultraviolet frequencies that the Earth's ozone layer otherwise absorbs. Most solar-blind space-borne imaging platforms still rely on photomultiplier tubes and/or microchannel plates working with silicon photodiodes that increase the systems' complexity and weight.

In Journal of Applied Physics, by AIP Publishing, researchers in India are asking why, after decades of development and promising results, ultrawide bandgap (UWBG) photodetectors with deep UV capabilities haven't enjoyed widespread adoption, and are taking stock of advancements and challenges in the field.

"From the device and materials point of view, enough advances have been made," said author Digbijoy Nath, from the Indian Institute of Science. "Now, it's time to bring systems and imaging experts and device and materials engineers together to study and qualify UWBG detectors under actual conditions for real-world applications."

Unlike their silicon-based counterparts, UWBG photodetectors made from aluminum gallium nitride and gallium (III) oxide are more efficient, can tailor cutoff wavelengths, and do not need optical filters to reject visible or infrared wavelengths for solar-blind applications.

The ability to image with UV is of strategic and astrophysical interest as well as important for industrial and biomedical applications.

In addition to determining how rugged and reliable devices are in real-world applications, the scientists said further work is needed to optimize how the materials are assembled over large area substrates, in a process of depositing crystalline materials into a thin film called epitaxy.

On the nanoscale, Nath said a better understanding can show how these devices can achieve superior performance by optimizing the arrangement of the atoms in the lattice of the semiconductors.

The researchers introduce a new benchmark for comparing photodetectors by accounting for gain, noise, and bandwidth, rather than the oft-cited parameters of photo-to-dark current ratio, responsivity, transient responses, and others.

"Further improvement in these device performance parameters isn't going to help mature this technology for real-world applications," Nath said.

"It's high time now for the community to have a pull from the industry and strategic sector so that device and material engineers can start working with imaging and systems groups to actually develop focal plane arrays and to integrate these with front-end electronics for real-life testing and applications."


Story Source:

Materials provided by American Institute of Physics. Note: Content may be edited for style and length.


Journal Reference:

  1. Anisha Kalra, Usman Ul Muazzam, R. Muralidharan, Srinivasan Raghavan, Digbijoy N. Nath. The road ahead for ultrawide bandgap solar-blind UV photodetectors. Journal of Applied Physics, 2022; 131 (15): 150901 DOI: 10.1063/5.0082348

Cite This Page:

American Institute of Physics. "Almost ready for prime time: Deep UV photodetectors head to real-world testing." ScienceDaily. ScienceDaily, 19 April 2022. <www.sciencedaily.com/releases/2022/04/220419112410.htm>.
American Institute of Physics. (2022, April 19). Almost ready for prime time: Deep UV photodetectors head to real-world testing. ScienceDaily. Retrieved November 20, 2024 from www.sciencedaily.com/releases/2022/04/220419112410.htm
American Institute of Physics. "Almost ready for prime time: Deep UV photodetectors head to real-world testing." ScienceDaily. www.sciencedaily.com/releases/2022/04/220419112410.htm (accessed November 20, 2024).

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