An analytical threshold voltage model to study the scaling capability of deep submicron double-gate GaN-MESFETs

机译：分析阈值电压模型以研究深亚微米双栅极GaN-MESFET的缩放能力

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In this work, a deep submicron double-gate (DG) Gallium Nitride (GaN)-MESFET design and its 2-D threshold analytical model have been proposed and expected to suppress the short-channel-effects for deep submicron GaN-MESFET-based low power applications. The model predicts that the threshold voltage is greatly improved in comparison with the conventional Single-Gate GaN-MESFET. The developed approaches are verified and validated by the good agreement found with the 2D numerical simulations for wide range of device parameters and bias conditions. DG GaN-MESFET can alleviate the critical problem and further improve the immunity of short-channel-effects of GaN-MESFET-based circuits in the low power deep submicron devices.

机译：在这项工作中，提出了深亚微米双栅极氮化镓（GaN）-MESFET设计及其二维阈值分析模型，并有望抑制基于深亚微米GaN-MESFET的短沟道效应低功耗应用。该模型预测，与传统的单栅极GaN-MESFET相比，阈值电压将大大提高。通过广泛的器件参数和偏置条件的二维数值模拟发现的良好协议，对开发的方法进行了验证和验证。 DG GaN-MESFET可以缓解关键问题，并进一步提高低功率深亚微米器件中基于GaN-MESFET的电路的短沟道效应的抗扰性。

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《2010 11th International Workshop on Symbolic and Numerical Methods, Modeling and Applications to Circuit Design》|2010年|p.1-4|共4页
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An analytical threshold voltage model to study the scaling capability of deep submicron double-gate GaN-MESFETs

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