242 lines
7.7 KiB
C++
242 lines
7.7 KiB
C++
/*
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* Copyright (C) 2012 Thorsten Liebig (Thorsten.Liebig@gmx.de)
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "operator_ext_conductingsheet.h"
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#include "tools/array_ops.h"
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#include "tools/constants.h"
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#include "cond_sheet_parameter.h"
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Operator_Ext_ConductingSheet::Operator_Ext_ConductingSheet(Operator* op, double f_max) : Operator_Ext_LorentzMaterial(op)
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{
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m_f_max = f_max;
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}
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bool Operator_Ext_ConductingSheet::BuildExtension()
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{
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double dT = m_Op->GetTimestep();
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unsigned int pos[] = {0,0,0};
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double coord[3];
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unsigned int numLines[3] = {m_Op->GetNumberOfLines(0),m_Op->GetNumberOfLines(1),m_Op->GetNumberOfLines(2)};
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m_Order = 0;
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vector<unsigned int> v_pos[3];
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int ****tanDir = Create_N_3DArray<int>(numLines);
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float ****Conductivity = Create_N_3DArray<float>(numLines);
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float ****Thickness = Create_N_3DArray<float>(numLines);
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CSPrimitives* cs_sheet = NULL;
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double box[6];
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int nP, nPP;
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bool b_pos_on;
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bool disable_pos;
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for (pos[0]=0; pos[0]<numLines[0]; ++pos[0])
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{
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for (pos[1]=0; pos[1]<numLines[1]; ++pos[1])
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{
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for (pos[2]=0; pos[2]<numLines[2]; ++pos[2])
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{
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b_pos_on = false;
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disable_pos = false;
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// disable conducting sheet model inside the boundary conditions, especially inside a pml
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for (int m=0;m<3;++m)
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if ((pos[m]<=(m_Op->GetBCSize(2*m))) || (pos[m]>=(numLines[m]-m_Op->GetBCSize(2*m+1)-1)))
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disable_pos = true;
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for (int n=0; n<3; ++n)
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{
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nP = (n+1)%3;
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nPP = (n+2)%3;
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tanDir[n][pos[0]][pos[1]][pos[2]] = -1; //deactivate by default
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Conductivity[n][pos[0]][pos[1]][pos[2]] = 0; //deactivate by default
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Thickness[n][pos[0]][pos[1]][pos[2]] = 0; //deactivate by default
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coord[0] = m_Op->GetDiscLine(0,pos[0]);
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coord[1] = m_Op->GetDiscLine(1,pos[1]);
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coord[2] = m_Op->GetDiscLine(2,pos[2]);
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coord[n] = m_Op->GetDiscLine(n,pos[n],true); //pos of E_n
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CSProperties* prop = m_Op->GetGeometryCSX()->GetPropertyByCoordPriority(coord,CSProperties::CONDUCTINGSHEET, false, &cs_sheet);
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if (prop)
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{
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CSPropConductingSheet* cs_prop = dynamic_cast<CSPropConductingSheet*>(prop);
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if (cs_prop==NULL)
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return false; //sanity check, this should never happen
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if (cs_sheet==NULL)
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return false; //sanity check, this should never happen
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if (cs_sheet->GetDimension()!=2)
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{
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cerr << "Operator_Ext_ConductingSheet::BuildExtension: A conducting sheet primitive (ID: " << cs_sheet->GetID() << ") with dimension: " << cs_sheet->GetDimension() << " found, fallback to PEC!" << endl;
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m_Op->SetVV(n,pos[0],pos[1],pos[2], 0 );
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m_Op->SetVI(n,pos[0],pos[1],pos[2], 0 );
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++m_Op->m_Nr_PEC[n];
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continue;
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}
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cs_sheet->SetPrimitiveUsed(true);
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if (disable_pos)
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{
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m_Op->SetVV(n,pos[0],pos[1],pos[2], 0 );
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m_Op->SetVI(n,pos[0],pos[1],pos[2], 0 );
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++m_Op->m_Nr_PEC[n];
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continue;
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}
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Conductivity[n][pos[0]][pos[1]][pos[2]] = cs_prop->GetConductivity();
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Thickness[n][pos[0]][pos[1]][pos[2]] = cs_prop->GetThickness();
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if ((Conductivity[n][pos[0]][pos[1]][pos[2]]<=0) || (Thickness[n][pos[0]][pos[1]][pos[2]]<=0))
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{
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cerr << "Operator_Ext_ConductingSheet::BuildExtension: Warning: Zero conductivity or thickness detected... fallback to PEC!" << endl;
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m_Op->SetVV(n,pos[0],pos[1],pos[2], 0 );
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m_Op->SetVI(n,pos[0],pos[1],pos[2], 0 );
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++m_Op->m_Nr_PEC[n];
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continue;
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}
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cs_sheet->GetBoundBox(box);
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if (box[2*nP]!=box[2*nP+1])
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tanDir[n][pos[0]][pos[1]][pos[2]] = nP;
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if (box[2*nPP]!=box[2*nPP+1])
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tanDir[n][pos[0]][pos[1]][pos[2]] = nPP;
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b_pos_on = true;
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}
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}
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if (b_pos_on)
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{
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for (int n=0; n<3; ++n)
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v_pos[n].push_back(pos[n]);
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}
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}
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}
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}
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size_t numCS = v_pos[0].size();
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if (numCS==0)
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return false;
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m_LM_Count.push_back(numCS);
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m_LM_Count.push_back(numCS);
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m_Order = 2;
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m_volt_ADE_On = new bool[m_Order];
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m_volt_ADE_On[0] = m_volt_ADE_On[1]=true;
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m_curr_ADE_On = new bool[m_Order];
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m_curr_ADE_On[0] = m_curr_ADE_On[1]=false;
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m_LM_pos = new unsigned int**[m_Order];
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m_LM_pos[0] = new unsigned int*[3];
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m_LM_pos[1] = new unsigned int*[3];
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v_int_ADE = new FDTD_FLOAT**[m_Order];
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v_ext_ADE = new FDTD_FLOAT**[m_Order];
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i_int_ADE = NULL;
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i_ext_ADE = NULL;
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v_int_ADE[0] = new FDTD_FLOAT*[3];
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v_ext_ADE[0] = new FDTD_FLOAT*[3];
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v_int_ADE[1] = new FDTD_FLOAT*[3];
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v_ext_ADE[1] = new FDTD_FLOAT*[3];
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for (int n=0; n<3; ++n)
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{
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m_LM_pos[0][n] = new unsigned int[numCS];
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m_LM_pos[1][n] = new unsigned int[numCS];
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for (unsigned int i=0; i<numCS; ++i)
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{
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m_LM_pos[0][n][i] = v_pos[n].at(i);
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m_LM_pos[1][n][i] = v_pos[n].at(i);
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}
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v_int_ADE[0][n] = new FDTD_FLOAT[numCS];
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v_int_ADE[1][n] = new FDTD_FLOAT[numCS];
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v_ext_ADE[0][n] = new FDTD_FLOAT[numCS];
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v_ext_ADE[1][n] = new FDTD_FLOAT[numCS];
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}
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unsigned int index;
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float w_stop = m_f_max*2*PI;
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float Omega_max=0;
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float G,L1,L2,R1,R2,Lmin;
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float G0, w0;
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float wtl; //width to length factor
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float factor=1;
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int t_dir=0; //tangential sheet direction
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unsigned int tpos[] = {0,0,0};
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unsigned int optParaPos;
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for (unsigned int i=0;i<numCS;++i)
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{
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pos[0]=m_LM_pos[0][0][i];pos[1]=m_LM_pos[0][1][i];pos[2]=m_LM_pos[0][2][i];
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tpos[0]=pos[0];tpos[1]=pos[1];tpos[2]=pos[2];
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index = m_Op->MainOp->SetPos(pos[0],pos[1],pos[2]);
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for (int n=0;n<3;++n)
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{
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tpos[0]=pos[0];tpos[1]=pos[1];tpos[2]=pos[2];
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t_dir = tanDir[n][pos[0]][pos[1]][pos[2]];
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G0 = Conductivity[n][pos[0]][pos[1]][pos[2]]*Thickness[n][pos[0]][pos[1]][pos[2]];
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w0 = 8.0/ G0 / Thickness[n][pos[0]][pos[1]][pos[2]]/__MUE0__;
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Omega_max = w_stop/w0;
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for (optParaPos=0;optParaPos<numOptPara;++optParaPos)
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if (omega_stop[optParaPos]>Omega_max)
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break;
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if (optParaPos>=numOptPara)
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{
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cerr << "Operator_Ext_ConductingSheet::BuildExtension(): Error, conductor thickness, conductivity or max. simulation frequency of interest is too high! Check parameter!" << endl;
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cerr << " --> max f: " << m_f_max << "Hz, Conductivity: " << Conductivity[n][pos[0]][pos[1]][pos[2]] << "S/m, Thickness " << Thickness[n][pos[0]][pos[1]][pos[2]]*1e6 << "um" << endl;
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optParaPos = numOptPara-1;
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}
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v_int_ADE[0][n][i]=0;
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v_ext_ADE[0][n][i]=0;
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v_int_ADE[1][n][i]=0;
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v_ext_ADE[1][n][i]=0;
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if (t_dir>=0)
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{
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wtl = m_Op->GetEdgeLength(n,pos)/m_Op->GetNodeWidth(t_dir,pos);
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factor = 1;
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if (tanDir[t_dir][tpos[0]][tpos[1]][tpos[2]]<0)
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factor = 2;
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--tpos[t_dir];
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if (tanDir[t_dir][tpos[0]][tpos[1]][tpos[2]]<0)
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factor = 2;
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L1 = l1[optParaPos]/G0/w0*factor;
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L2 = l2[optParaPos]/G0/w0*factor;
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R1 = r1[optParaPos]/G0*factor;
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R2 = r2[optParaPos]/G0*factor;
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G = G0*g[optParaPos]/factor;
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L1*=wtl;
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L2*=wtl;
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R1*=wtl;
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R2*=wtl;
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G/=wtl;
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Lmin = L1;
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if (L2<L1)
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Lmin = L2;
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m_Op->EC_G[n][index]= G;
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m_Op->EC_C[n][index]= dT*dT/4.0*(16.0/Lmin + 1/L1 + 1/L2);
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m_Op->Calc_ECOperatorPos(n,pos);
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v_int_ADE[0][n][i]=(2.0*L1-dT*R1)/(2.0*L1+dT*R1);
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v_ext_ADE[0][n][i]=dT/(L1+dT*R1/2.0)*m_Op->GetVI(n,pos[0],pos[1],pos[2]);
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v_int_ADE[1][n][i]=(2.0*L2-dT*R2)/(2.0*L2+dT*R2);
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v_ext_ADE[1][n][i]=dT/(L2+dT*R2/2.0)*m_Op->GetVI(n,pos[0],pos[1],pos[2]);
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}
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}
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}
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return true;
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}
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