fimplicit plots the lines where your function is ZERO in that region. Is it ever zero? Probably not.
dmin=0.2; fs=250e3; Vo=40; Coss=126e-12; Vdc=425; Io=75;
Cp=2*Coss;
A1=Vo/Vdc; A2=2*fs*Io/Vdc; A3=Cp*(Vdc/Io)^2;
First, fix your function so it is properly vectorized. Note my use of the dotted operators. You don't need them for scalar multiplication.
f = @(L,n) dmin - A1./n - A2*n.*L.*(1+sqrt(1-A3./(n.*L)));
Look at a sample value of your function in that interval. This also lets me verify if the function evaluates properly.
f(1e-5,.1)
fimplicit(f,[0.1e-6 50e-6 0.01 0.5])
Again, the blank plot suggests there are no places in that region where the function crosses zero. At least, no place that was found by fimplicit. Be very careful however, since your intervals cover many powers of 10. So something might happen near zero, and fimplicit missed it.
We can take a look at the surface, to see what may be happening.
fsurf(f,[0.1e-6 50e-6 0.01 0.5])
And that suggests it comes close to zero in one corner of the domain, near [0,.5]. So if I change the limits just a bit, we might find a solution.
fimplicit(f,[0.1e-7 1e-6 0.4 0.6])
grid on
And indeed we did, but we had to look a bit outside of your original domain.
