Anomalous dose rate effects in gamma irradiated SiGe heterojunction bipolar transistors

Banerjee G.; Niu G.

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Anomalous dose rate effects in gamma irradiated SiGe heterojunction bipolar transistors

机译：γ辐照的SiGe异质结双极晶体管的剂量率异常效应

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Low dose rate (LDR) cobalt-60 (0.1 rad(Si)/s) gamma irradiated Silicon Germanium (SiGe) Heterojunction Bipolar Transistors (HBTs) were studied. Comparisons were made with devices irradiated with 300 rad(Si)/s gamma radiation to verify if LDR radiation is a serious radiation hardness assurance (RHA) issue. Almost no LDR degradation was observed in this technology up to 50 krad(Si). The assumption of the presence of two competing mechanisms is justified by experimental results. At low total dose (>20 krad), an anomalous base current decrease was observed which is attributed to self-annealing of deep-level traps to shallower levels. An increase in base current at larger total doses is attributed to radiation induced generation-recombination (G/R) center generation. Experiments on gate-assisted lateral PNP transistors and 2D numerical simulations using MEDICI were used to confirm these assertions.

机译：研究了低剂量率（LDR）钴60（0.1 rad（Si）/ s）γ辐照的硅锗（SiGe）异质结双极晶体管（HBT）。使用300 rad（Si）/ sγ射线辐射的设备进行了比较，以验证LDR辐射是否是严重的辐射硬度保证（RHA）问题。在此技术中，直至50 krad（Si），几乎没有观察到LDR降解。实验结果证明存在两种竞争机制的假设是正确的。在低总剂量（> 20 krad）下，观察到异常的基极电流降低，这归因于深层陷阱的自退火至浅层陷阱。在总剂量较大时，基极电流的增加归因于辐射诱导的生成重组（G / R）中心生成。栅极辅助横向PNP晶体管的实验和使用MEDICI的2D数值模拟被用来确认这些结论。

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《IEEE Transactions on Nuclear Science》 |1999年第6期|P.1620-1626|共7页
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Banerjee G.; Niu G.;
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2. Comparison of total dose effects on SiGe heterojunction bipolar transistors induced by different swift heavy ion irradiation [J] . Sun Ya-Bin, Fu Jun, Xu Jun, 中国物理：英文版 . 2014,第011期

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Anomalous dose rate effects in gamma irradiated SiGe heterojunction bipolar transistors

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