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- /* This file is part of Lemma, a geophysical modelling and inversion API.
- * More information is available at http://lemmasoftware.org
- */
-
- /* This Source Code Form is subject to the terms of the Mozilla Public
- * License, v. 2.0. If a copy of the MPL was not distributed with this
- * file, You can obtain one at http://mozilla.org/MPL/2.0/.
- */
-
- /**
- * @file
- * @date 11/11/2016 02:44:37 PM
- * @version $Id$
- * @author Trevor Irons (ti)
- * @email tirons@egi.utah.edu
- * @copyright Copyright (c) 2016, University of Utah
- * @copyright Copyright (c) 2016, Lemma Software, LLC
- */
-
- #include <Merlin>
- using namespace Lemma;
-
- std::shared_ptr<PolygonalWireAntenna> CircularLoop ( int nd, Real radius, Real Offsetx, Real Offsety ) ;
-
- int main() {
-
- auto earth = LayeredEarthEM::NewSP();
- earth->SetNumberOfLayers(3);
- earth->SetLayerConductivity( (VectorXcr(3) << Complex(0.,0), Complex(1./50.,0), Complex(1./100.)).finished() );
- earth->SetLayerThickness( (VectorXr(1) << 10).finished() );
- // Set mag field info
- // From NOAA, Laramie WY, June 9 2016, aligned with mag. north
- earth->SetMagneticFieldIncDecMag( 67, 0, 52750, NANOTESLA );
-
- // Transmitter loops
- auto Tx1 = CircularLoop(21, 15, 100, 100);
- auto Tx2 = CircularLoop(21, 15, 100, 124.8);
- //auto Tx1 = CircularLoop(60, 15, 0, 0); // was 60
-
- auto Kern = KernelV0::NewSP();
- Kern->PushCoil( "Coil 1", Tx1 );
- Kern->PushCoil( "Coil 2", Tx2 );
- Kern->SetLayeredEarthEM( earth );
-
- Kern->SetIntegrationSize( (Vector3r() << 200,200,200).finished() );
- Kern->SetIntegrationOrigin( (Vector3r() << 0,0,0).finished() );
- Kern->SetTolerance( 1e-10 );
-
- Kern->SetPulseDuration(0.020);
- VectorXr I(36);
- I << 397.4208916184016, 352.364477036168, 313.0112765842783, 278.37896394065376, 247.81424224324982,
- 220.77925043190442, 196.76493264105017, 175.31662279234038, 156.0044839325404, 138.73983004230124,
- 123.42064612625474, 109.82713394836259, 97.76534468972267, 87.06061858367781, 77.56000002944572, 69.1280780096311,
- 61.64250263640252, 54.99473044877554, 49.091182970515476, 43.84634004556388, 39.184136917167976, 35.03619319797924,
- 31.347205894128976, 28.06346770557137, 25.139117042424758, 22.53420773366429, 20.214205433283347,
- 18.144318026099942, 16.299965972298878, 14.652633628829891, 13.184271405688083, 11.870540177313893,
- 10.697057141915716, 9.64778948429609, 8.709338689612677, 7.871268012862094;
- //Kern->SetPulseCurrent( VectorXr::LinSpaced( 1, 10, 200 ) ); // nbins, low, high
- Kern->SetPulseCurrent( I ); // nbins, low, high
-
- //Kern->SetDepthLayerInterfaces( VectorXr::LinSpaced( 30, 3, 45.5 ) ); // nlay, low, high
- //10**np.linspace(np.log10(10),np.log10(19),10)
- VectorXr interfaces = VectorXr::LinSpaced(21, std::log10(2), std::log10(50)); // 30 log spaced
- for (int i=0; i<interfaces.size(); ++i) {
- interfaces(i) = std::pow(10, interfaces(i));
- }
- Kern->SetDepthLayerInterfaces( interfaces ); // nlay, low, high
-
- // We could, I suppose, take the earth model in here? For non-linear that
- // may be more natural to work with?
- std::vector<std::string> tx = {std::string("Coil 1"), std::string("Coil 2") };
- std::vector<std::string> rx = {std::string("Coil 1")};
- Kern->CalculateK0( tx, rx, true );
-
- ofstream out = ofstream("k.yaml");
- out << *Kern;
- out.close();
- }
-
- std::shared_ptr<Lemma::PolygonalWireAntenna> CircularLoop ( int nd, Real Radius, Real Offsetx, Real Offsety ) {
-
- auto Tx1 = Lemma::PolygonalWireAntenna::NewSP();
- Tx1->SetNumberOfPoints(nd);
-
- VectorXr range = VectorXr::LinSpaced(nd, 0, 2*PI);
- int ii;
- for (ii=0; ii<nd; ++ii) {
- Tx1->SetPoint(ii, Vector3r(Offsetx+Radius*std::cos(range(ii)), Offsety+Radius*std::sin(range(ii)), -1e-3));
- }
- //Tx1->SetPoint(ii, Vector3r(Offsetx+Radius*1, Offsety, -1e-3));
-
- Tx1->SetCurrent(1.);
- Tx1->SetNumberOfTurns(1);
- Tx1->SetNumberOfFrequencies(1);
- Tx1->SetFrequency(0,2246);
-
- return Tx1;
- }
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