Fast neutron irradiation for fabrication of narrow forward voltage p-i-n diodes

Bhatnagar, P. K.; Pandya, Arun; Reddy, A.R.; Thakur, D.K.

doi:10.1016/0168-9002(93)91281-q

Cited by 2 publications

(1 citation statement)

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“…Capacitance-frequency characteristics of the mica film capacitor of different batches at frequencies from 100 Hz-10 MHz at an oscillation level 1⋅000 V. Measurements taken after different neutron doses at room temperature. defects and complex defects (Bhatnagar et al 1993). These defects-like pair of vacancies and interstitial cause the degradation of specimen properties.…”

Section: Resultsmentioning

confidence: 99%

Evaluation of gamma and neutron irradiation effects on the properties of mica film capacitors

Roy

Pandya

2005

Bull Mater Sci

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We present an investigation of gamma and neutron radiation effects on mica film capacitors from an electrical point of view. We have studied quantitatively the effects of gamma and neutron irradiation on mica film capacitors of thickness, 20 and 40 µ µm (0⋅ ⋅7874 and 1⋅ ⋅5748 mil) with two different areas, 01 and 04 cm 2. The capacitance has been measured at room temperature in the frequency range 100 Hz-10 MHz. Negligible change in the capacitance due to high gamma dose of 60 Co, 15 kGy at dose rate 0⋅ ⋅25 kGy/h, has been observed. However, appreciable change in the capacitance has been observed due to low doses of fast neutrons (cumulative dose, 115 cGy) with flux ~ 9⋅ ⋅925 × 10 7 neutrons/cm 2 h from 252 Cf neutron source of fluence, 2⋅ ⋅5 × 10 7 neutrons/s. We have also observed that the impact of gamma and neutron irradiation is more at frequencies higher than 10 kHz. These results show that the mica capacitors do not show any radiation response below 10 kHz. The study shows the radiation response of mica film capacitors to gamma and fast neutron radiations. Mica capacitors show low gamma radiation response in comparison to fast neutron radiation, because a total dose of kGy order has been given by gamma source and only few cGy dose has been given by fast neutron source.

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Section: Resultsmentioning

confidence: 99%