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Coupling and image generation plots

master
Trevor Irons 8 vuotta sitten
vanhempi
commit
4ae1cdbc0a
2 muutettua tiedostoa jossa 23 lisäystä ja 19 poistoa
  1. 20
    17
      examples/Coupling.cpp
  2. 3
    2
      src/Coupling.cpp

+ 20
- 17
examples/Coupling.cpp Näytä tiedosto

@@ -26,7 +26,7 @@ std::shared_ptr<PolygonalWireAntenna> CircularLoop ( int nd, Real radius, Real O
26 26
 void MoveLoop( std::shared_ptr<PolygonalWireAntenna> Loop, int nd, Real Radius, Real Offsetx, Real Offsety, Real wL );
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 int main(int argc, char** argv) {
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-
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+    /*
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     if ( argc < 2 ) {
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         std::cout << "Calculates the coupling between two sNMR loops at the Larmor frequency. Usage\n"
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                   << "\t./Coupling   EarthModel.yaml" << std::endl;
@@ -34,39 +34,42 @@ int main(int argc, char** argv) {
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     }
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     //Real offset = atof(argv[1]);
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     auto earth = LayeredEarthEM::DeSerialize( YAML::LoadFile(argv[1]) );
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-    Real Larmor = earth->GetMagneticFieldMagnitude()*GAMMA/(2*PI);
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-//  RedButtes model, also how you can generate your own files
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-// 	auto earth = LayeredEarthEM::NewSP();
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-// 		earth->SetNumberOfLayers(3);
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-// 		earth->SetLayerConductivity( (VectorXcr(3) << Complex(0.,0), Complex(1./50.,0), Complex(1./100.)).finished() );
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-// 		earth->SetLayerThickness( (VectorXr(1) << 10).finished() );
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-//         // Set mag field info
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-//         // From NOAA, Laramie WY, June 9 2016, aligned with mag. north
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-//         earth->SetMagneticFieldIncDecMag( 67, 0, 52750, NANOTESLA );
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+    */
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+    // RedButtes model, also how you can generate your own files
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+	auto earth = LayeredEarthEM::NewSP();
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+		earth->SetNumberOfLayers(3);
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+		//earth->SetLayerConductivity( (VectorXcr(3) << Complex(0.,0), Complex(1./50.,0), Complex(1./100.)).finished() );
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+		earth->SetLayerConductivity( (VectorXcr(3) << Complex(0.,0), Complex(1./7.,0), Complex(1./100.)).finished() );
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+		earth->SetLayerThickness( (VectorXr(1) << 10).finished() );
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+        // Set mag field info
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+        // From NOAA, Laramie WY, June 9 2016, aligned with mag. north
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+        earth->SetMagneticFieldIncDecMag( 67, 0, 52750, NANOTESLA );
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 //     auto sig = std::ofstream("SigmaModel.yaml");
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 //         sig << *earth << std::endl;
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 //         sig.close();
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+    Real Larmor = earth->GetMagneticFieldMagnitude()*GAMMA/(2*PI);
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+
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     // Transmitter loops
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-    auto Tx1 = CircularLoop(21, 15, 100, 75, Larmor);
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-    auto Tx2 = CircularLoop(21, 15, 100, 75, Larmor); // initially coincident
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+    auto Tx1 = CircularLoop(21, 15, 50, 50, Larmor);
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+    auto Tx2 = CircularLoop(21, 15, 50, 50, Larmor); // initially coincident
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     auto Kern = Coupling::NewSP();
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         Kern->PushCoil( "Coil 1", Tx1 );
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         Kern->PushCoil( "Coil 2", Tx2 );
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         Kern->SetLayeredEarthEM( earth );
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-        Kern->SetIntegrationSize( (Vector3r() << 200,300,20).finished() );
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+        Kern->SetIntegrationSize( (Vector3r() << 50,100,20).finished() );
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         Kern->SetIntegrationOrigin( (Vector3r() << 0,0,0.01).finished() );
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-        Kern->SetTolerance( 1e-5 ); // 1e-12
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+        Kern->SetTolerance( 1e-2 ); // 1e-12
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-    std::vector<std::string> tx = {std::string("Coil 1")};
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+    std::vector<std::string> tx = {std::string("Coil 1")};//,std::string("Coil 2")};
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     std::vector<std::string> rx = {std::string("Coil 2")};
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-    VectorXr Offsets = VectorXr::LinSpaced(6, 22.00, 23.0); // nbins, low, high
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+    VectorXr Offsets = VectorXr::LinSpaced(6, 15.00, 23.0); // nbins, low, high
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     auto outfile = std::ofstream("coupling.dat");
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     for (int ii=0; ii< Offsets.size(); ++ii) {
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-        MoveLoop(Tx2, 21, 15, 100, 75 + Offsets(ii), Larmor);
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+        MoveLoop(Tx2, 21, 15, 50, 50 + Offsets(ii), Larmor);
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         #ifdef LEMMAUSEVTK
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         Complex coupling = Kern->Calculate( tx, rx, true );
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         #else

+ 3
- 2
src/Coupling.cpp Näytä tiedosto

@@ -252,8 +252,9 @@ namespace Lemma {
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     //      Method:  f
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     //--------------------------------------------------------------------------------------
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     Complex Coupling::f( const Vector3r& r, const Real& volume, const Vector3cr& Ht, const Vector3cr& Hr ) {
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-        //return volume*(Hr.norm() + Ht.norm());//.dot(Hr);
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-        return volume * ( Ht.dot(Hr) );
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+        //return volume * ( Ht.dot(Hr) );                              // coupling
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+        //return volume * (1.-((Ht+Hr).norm()/(Hr.norm() + Ht.norm()))); // interference
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+        return volume * std::acos( (Ht.dot(Hr) / (Ht.norm()*Hr.norm())) ); // angle
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     }
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     //--------------------------------------------------------------------------------------

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