Add a useful package (from Source forge) for octave

[CreaPhase.git] / octave_packages / secs2d-0.0.8 / ThDDGOX / ThDDGOXupdatehole_temp.m

diff --git a/octave_packages/secs2d-0.0.8/ThDDGOX/ThDDGOXupdatehole_temp.m b/octave_packages/secs2d-0.0.8/ThDDGOX/ThDDGOXupdatehole_temp.m
new file mode 100644 (file)
index 0000000..a009540
--- /dev/null
+++ b/octave_packages/secs2d-0.0.8/ThDDGOX/ThDDGOXupdatehole_temp.m
@@ -0,0 +1,60 @@
+function Tp = ThDDGOXupdatehole_temp(imesh,Dnodes,Tp,n,p,Tl,Jp,E,mobp0,...
+                                     twp0,twp1,tn,tp,n0,p0)
+  %%
+  %%  Tp = ThDDGOXupdatehole_temp(mesh,Dnodes,Tp,n,p,Tl,Jp,E,mobp0,...
+  %%                              twp0,twp1,tn,tp,n0,p0)
+  %%
+  
+  %% This file is part of 
+  %%
+  %%            SECS2D - A 2-D Drift--Diffusion Semiconductor Device Simulator
+  %%         -------------------------------------------------------------------
+  %%            Copyright (C) 2004-2006  Carlo de Falco
+  %%
+  %%
+  %%
+  %%  SECS2D is free software; you can redistribute it and/or modify
+  %%  it under the terms of the GNU General Public License as published by
+  %%  the Free Software Foundation; either version 2 of the License, or
+  %%  (at your option) any later version.
+  %%
+  %%  SECS2D is distributed in the hope that it will be useful,
+  %%  but WITHOUT ANY WARRANTY; without even the implied warranty of
+  %%  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+  %%  GNU General Public License for more details.
+  %%
+  %%  You should have received a copy of the GNU General Public License
+  %%  along with SECS2D; If not, see <http://www.gnu.org/licenses/>.
+
+  Nnodes    = columns(imesh.p);
+  Nelements = columns(imesh.t);
+  Varnodes  = setdiff(1:Nnodes,Dnodes);
+
+  alpha = mobp0;
+  gamma = ones(Nnodes,1);
+  eta   = 1.5 * p .* Tl;
+  betax = Jp(1,:)./ mobp0';
+  betay = Jp(2,:)./ mobp0';
+  beta  = 2.5*[betax;betay];
+  
+  Sn = Uscharfettergummel3(imesh,alpha,gamma,eta,beta);
+
+  denom  = (tp*(n+sqrt(n0.*p0))+tn*(p+sqrt(n0.*p0)));
+  R      = (p.*n)./denom;
+  MASS_LHS1 = Ucompmass2(imesh,1.5*R,ones(Nelements,1));
+  MASS_LHS2 = Ucompmass2(imesh,1.5*p./twp1,1./twp0);
+
+  LHS = Sn + MASS_LHS1 + MASS_LHS2;
+
+  G        = (p0.*n0)./denom;
+  PJoule   = Jp(1,:).*E(1,:) + Jp(2,:).*E(2,:);
+  PJoule(PJoule<0) = 0;
+
+  rhsJoule = Ucompconst (imesh,ones(Nnodes,1),PJoule');
+  rhsR_G   = Ucompconst (imesh,1.5*G.*Tp,ones(Nelements,1));
+  rhsTh_L  = Ucompconst (imesh,1.5*p.*Tl./twp1,1./twp0);
+  RHS      = rhsJoule + rhsR_G + rhsTh_L;
+
+  Tp(Varnodes) = LHS(Varnodes,Varnodes) \(RHS(Varnodes) -...
+      LHS(Varnodes,Dnodes)*Tp(Dnodes));
+