2021
DOI: 10.1016/j.microrel.2020.114000
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Ionizing radiation hardness tests of GaN HEMTs for harsh environments

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Cited by 17 publications
(11 citation statements)
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“…In this X-ray test, the experiment was ended when the PSoC system failed completely, with an accumulated dose of 30.6 krad(Si). Details on the adopted X-ray dosimetry methodology can be found in reference [30].…”
Section: B Resultsmentioning
confidence: 99%
“…In this X-ray test, the experiment was ended when the PSoC system failed completely, with an accumulated dose of 30.6 krad(Si). Details on the adopted X-ray dosimetry methodology can be found in reference [30].…”
Section: B Resultsmentioning
confidence: 99%
“…The large dose of 990 kGy creates Frenkel pairs and other defects. [ 200 ] The photoemission peak (700 nm) perceived due to gamma irradiation is close to the transition energy (1.83 eV) of Ga interstitials (from the +1 state to the +2 state). [ 201 ] However, the emission intensity of 250 µm wafer single‐crystal increases as the absorption rate of gamma radiation increases (Figure 14d).…”
Section: Radiation Effect On Thin Films Transistor (Tft)mentioning
confidence: 98%
“…Reproduced with permission. [200] Copyright 2021, Elsevier Ltd. device characteristics. [198] Overall, the neutron fluence should be <10 15 n cm −2 to avoid the degradation of the GaN Schottky contact, especially with thermal neutrons.…”
Section: Nitride Semiconductors-based Tftsmentioning
confidence: 99%
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“…As human society has started to expand its field of interest in space exploration and alternative energy production, the use of electronic devices in harsh radiation environments has increased over the past decades and is expected to grow even more dramatically. For example, increased space activity and the development of civilian space programs, such as SpaceX, have boosted the popularity of the space industry and given rise to the development of radiation-resistant large-area devices for future space equipment. , Radiation-resistant electronic devices are also needed in nuclear power plants where radioactive waste is discharged . Ionizing radiation is not only problematic for electronic devices that are intended for such missions or safety-critical applications but also for general semiconductor devices, in which daily radiation exposure has become a serious problem. , Presently, as the dimensions of electronic circuits are becoming ever smaller, with certain components becoming nano-scaled, faulty products may result from cosmic radiation during the air transportation with high altitudes . Row hammer faults in dynamic random access memory (DRAM) circuits or soft errors occurring in computers and smartphones even on the earth’s surface are regarded to originate from cosmic radiation …”
Section: Introductionmentioning
confidence: 99%