Theoretical approach to thermal sensitivity capability of metal-semiconductor diodes with different Schottky contact area

Abdulmecit Turut
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Abstract

Many of the device parameters measured in scientific research and engineering applications depend on the ambient temperature to varying degrees. A Schottky barrier diode (SBD) is in direct contact with the environment, namely, gas, pressure, and temperature; therefore, a change in the state of the Schottky contact (SC) immediately affects its parameters in contrast to the p-n junction and semiconductor transistors. The temperature sensitivity capability of the Au/n-GaAs SBDs has been analyzed by numerical simulation of its current–voltage characteristics using a thermionic emission relation. The obtained results from the simulation study have shown that the thermal sensitivity of the SBDs has increased with a decrease in the current level value at the same SC area size, and it has decreased with a decrease in the SC area size under the same current level. Moreover, it has been concluded from the fact that a SBD with a large SC area should be operated for the cryogenic temperature range under a low current level rather than high current levels. The results of this kind of study can help us to select the SC dimension suitable for many purposes in scientific research and engineering applications.
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不同肖特基接触面积金属半导体二极管热敏性能的理论研究
在科学研究和工程应用中测量的许多器件参数都不同程度地依赖于环境温度。肖特基势垒二极管(SBD)与环境直接接触,即气体、压力和温度;因此,与pn结和半导体晶体管相比,肖特基触点(SC)状态的变化会立即影响其参数。利用热离子发射关系对Au/n-GaAs sdd的电流-电压特性进行了数值模拟,分析了sdd的温度敏感性。仿真研究结果表明,在相同的SC面积下,sdd的热敏度随电流电平值的减小而增大,在相同的电流电平下,sdd的热敏度随SC面积的减小而减小。此外,还得出结论,大SC面积的SBD应在低电流下工作,而不是在高电流下工作。这类研究的结果可以帮助我们在科学研究和工程应用中选择适合多种用途的SC维度。
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