Abstract: (3305 Views)
In this work, the effect of variation of the non-ideality coefficient of the p-n-junction volt-ampere (I-V) characteristic located in the strong microwave field on the differential resistance, diffusion capacitance and differential conductance is studied. Here, it is shown that the p-n junction I-V characteristics increases with the value of the non-ideality coefficient, whether the differential resistance is in a strong microwave field or a weak microwave field. Diffusion capacitance and differential conductance are shown to decrease with increasing value of non-ideality coefficient.
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Both when the p-n junction is under the influence of strong microwave field and without the influence of strong microwave field, the differential resistance increases with the increase in the value of the coefficient of non-ideality of the p-n-junction I-V characteristics.
Both when the p-n junction is under the influence of strong microwave field and without the influence of strong microwave field, the diffusion capacity decreases as the value of the non-ideality coefficient of the p-n junction I-V characteristics increases.
Both when the p-n-junction is under the influence of strong microwave field and without the influence of strong microwave field, the differential conductance decreases as the value of the non-ideality coefficient of the p-n-junction I-V characteristics.