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2D Silicon BARITT diode (p-n-p junction)
Posted Dec 7, 2022, 9:59 a.m. EST 0 Replies
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Hello, I'm trying to simulate the behavior of a 2D silicon Baritt diode (p-n-p junction) under applied voltage. The diode is composed mainly by three parts: a n-doped substrate with Nd=1e14 cm^-3 and two separate p-doped layers deposited on the top of the substrate with an acceptor concentration of Na=1e20 cm^-3. I followed the explained example of Comsol for a 2D p-n junction, so as physic domain I considered a Trap-Assisted Recombination where the lifetime is taken by the material. Additionally I added two Ohmic Metal Contacts boundaries at the side of the p-doped regions. I obtained the following error:
"Failed to find a solution for the initial parameter. Maximum number of Newton iterations reached. Returned solution is not converged. Not all parameter steps returned."
Under: Study1 -> Solver Configuration -> Stationary Solver1 I increased the Relative Tolerance to 1E-5
Under: Study1 -> Solver Configuration -> Stationary Solver1 -> Fully Coupled1 I used as NonLinear Method= Automatic (Newton) and I increased the Maximum number of iterations to 1000.
Finally I also tried to increased the finesse of my mesh but I still get the same error. However if I reduce both doping concentration the error desappear. I attached here a copy of my simulation. Can anyone help me to figure out the origin of such error and how to solve it? Thanks in advance.
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Hello Santo Santonocito
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