Lemma is an Electromagnetics API
Vous ne pouvez pas sélectionner plus de 25 sujets Les noms de sujets doivent commencer par une lettre ou un nombre, peuvent contenir des tirets ('-') et peuvent comporter jusqu'à 35 caractères.

KernelEM1DReflBase.h 7.3KB

123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243
  1. /* This file is part of Lemma, a geophysical modelling and inversion API */
  2. /* This Source Code Form is subject to the terms of the Mozilla Public
  3. * License, v. 2.0. If a copy of the MPL was not distributed with this
  4. * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
  5. /**
  6. @file
  7. @author Trevor Irons
  8. @date 05/18/2012
  9. **/
  10. #ifndef KERNELEM1DREFLBASE_INC
  11. #define KERNELEM1DREFLBASE_INC
  12. #include "KernelEM1DBase.h"
  13. #include "DipoleSource.h"
  14. #include "LayeredEarthEM.h"
  15. namespace Lemma {
  16. enum DIPOLE_LOCATION { INAIR, INGROUND };
  17. // forward declaration for friend
  18. template<EMMODE Mode, int Ikernel, DIPOLE_LOCATION Isource, DIPOLE_LOCATION Irecv>
  19. class KernelEM1DSpec;
  20. // ===================================================================
  21. // Class: KernelEM1DReflBase
  22. /**
  23. \ingroup FDEM1D
  24. \brief Abstract class defining EM1DRefl class.
  25. \details Derived classes are template specialized for optimal performance.
  26. */
  27. // ===================================================================
  28. class KernelEM1DReflBase : public LemmaObject {
  29. template<EMMODE Mode, int Ikernel, DIPOLE_LOCATION Isource, DIPOLE_LOCATION Irecv>
  30. friend class KernelEM1DSpec;
  31. friend class KernelEM1DManager;
  32. //friend class DipoleSource;
  33. public:
  34. // ==================== LIFECYCLE =======================
  35. // ==================== OPERATORS =======================
  36. // ==================== OPERATIONS =======================
  37. void Initialise( std::shared_ptr<LayeredEarthEM> EarthIn) {
  38. nlay = EarthIn->GetNumberOfLayers();
  39. zh = VectorXcr::Zero(nlay);
  40. yh = VectorXcr::Zero(nlay);
  41. u = VectorXcr::Zero(nlay);
  42. cf = VectorXcr::Zero(nlay); // nlay -1 (lay 0 empty)
  43. rtu = VectorXcr::Zero(nlay); // nlay -1 Interfaces only
  44. rtd = VectorXcr::Zero(nlay); // nlay -1 Interfaces only
  45. kk = VectorXcr::Zero(nlay);
  46. Zyu = VectorXcr::Zero(nlay);
  47. Zyd = VectorXcr::Zero(nlay);
  48. Zyi = VectorXcr::Zero(nlay);
  49. th = VectorXcr::Zero(nlay);
  50. Earth = EarthIn;
  51. LayerThickness.resize(nlay);
  52. for (int ilay=0; ilay<nlay; ++ilay) {
  53. LayerThickness(ilay) = Earth->GetLayerThickness(ilay);
  54. }
  55. LayerDepth.resize(nlay);
  56. for (int ilay=0; ilay<nlay; ++ilay) {
  57. LayerDepth(ilay) = Earth->GetLayerDepth(ilay);
  58. }
  59. }
  60. void SetUpSource( DipoleSource* Dipole, const int &ifreq ) {
  61. zh(0) = Complex(0, Dipole->GetAngularFrequency(ifreq)*MU0);
  62. yh(0) = Complex(0, Dipole->GetAngularFrequency(ifreq)*EPSILON0);
  63. kk(0) = -zh(0) * yh(0);
  64. Earth->EvaluateColeColeModel(Dipole->GetAngularFrequency(ifreq));
  65. for (int ilay=1; ilay<Earth->GetNumberOfLayers(); ++ilay) {
  66. zh(ilay) = zh(0) * Earth->GetLayerSusceptibility(ilay);
  67. yh(ilay) = Earth->GetLayerConductivity(ilay) +
  68. yh(0)*Earth->GetLayerPermitivity(ilay);
  69. kk(ilay) = -zh(ilay)*yh(ilay);
  70. }
  71. tx_z = Dipole->GetLocation(2);
  72. lays = 0;
  73. Real Depth(0);
  74. for (int ilay=1; ilay<nlay; ++ilay) {
  75. if (tx_z > Depth) {
  76. lays = ilay;
  77. }
  78. Depth += LayerThickness(ilay);
  79. }
  80. }
  81. void SetUpReceiver(const Real &rz) {
  82. rx_z = rz;
  83. Real Depth(0.);
  84. layr = 0;
  85. for (int ilay=1; ilay<Earth->GetNumberOfLayers(); ++ilay) {
  86. if (rx_z > Depth) {
  87. layr = ilay;
  88. }
  89. Depth += LayerThickness(ilay);
  90. }
  91. }
  92. // ==================== ACCESS =======================
  93. Complex GetYm() {
  94. return yh(layr);
  95. }
  96. Complex GetZm() {
  97. return zh(layr);
  98. }
  99. Complex GetZs() {
  100. return zh(lays);
  101. }
  102. Complex GetKs() {
  103. return kk(lays);
  104. }
  105. // ==================== INQUIRY =======================
  106. virtual std::string GetName() const {
  107. return CName;
  108. }
  109. protected:
  110. // ==================== LIFECYCLE =======================
  111. /// Default protected constructor.
  112. KernelEM1DReflBase ( const ctor_key& key ) : LemmaObject( key )
  113. {
  114. }
  115. /// Default protected constructor.
  116. ~KernelEM1DReflBase () {
  117. }
  118. // ==================== OPERATIONS =======================
  119. /** Computes reflection coefficients. Depending on the
  120. * specialisation, this will either be TM or TE mode.
  121. */
  122. virtual void ComputeReflectionCoeffs(const Real& lambda)=0;
  123. /** Precomputes expensive calculations that are reused by insances
  124. * of KernelEM1DSpec in the calculation of Related potentials.
  125. */
  126. virtual void PreComputePotentialTerms()=0;
  127. // ==================== DATA MEMBERS =========================
  128. /// Bessel order, only 0 or 1 supported
  129. int id; // Needs to be dim nRel, or separate
  130. /// Layer the source is in
  131. int lays;
  132. /// Layer the receiver is in
  133. int layr;
  134. /// Number of Layers
  135. int nlay;
  136. /// Number of Related kernels to be computed
  137. int nRelated;
  138. /// Used in related kernel precompute calls
  139. int relIud;
  140. /// Receiver z position
  141. Real rx_z;
  142. /// Transmitter z position
  143. Real tx_z;
  144. /// bessel arg squared
  145. Real rams;
  146. /** Related part of con term */
  147. Complex relCon;
  148. Complex relenukadz;
  149. Complex relexp_pbs1;
  150. Complex relexp_pbs2;
  151. Complex rel_a;
  152. /// TM or TE mode
  153. EMMODE mode;
  154. /// Pointer to layered earth
  155. std::shared_ptr<LayeredEarthEM> Earth = nullptr;
  156. Complex uk;
  157. Complex um;
  158. VectorXcr cf; // nlay
  159. VectorXcr u; // nlay
  160. VectorXcr yh; // nlay
  161. VectorXcr zh; // nlay
  162. VectorXcr kk; // nlay
  163. VectorXcr Zyu; //(nlay); //Zyu.setZero();
  164. VectorXcr Zyd; //(nlay); //Zyd.setZero();
  165. VectorXcr Zyi; //(nlay); //Zyi.setZero();
  166. VectorXcr th; //(nlay);
  167. VectorXr LayerThickness;
  168. VectorXr LayerDepth;
  169. /// Reflection/Transmission coef. for upgoing waves in a
  170. /// layered earth model
  171. VectorXcr rtu;
  172. /// Reflection/Transmission coef. for downgoing waves in
  173. /// a layered earth model
  174. VectorXcr rtd;
  175. private:
  176. static constexpr auto CName = "KernelEM1DReflBase";
  177. }; // ----- end of class KernelEM1DReflBase -----
  178. } // ----- end of Lemma name -----
  179. #endif // ----- #ifndef KERNELEM1DREFLBASE_INC -----