// // ******************************************************************** // * License and Disclaimer * // * * // * The Geant4 software is copyright of the Copyright Holders of * // * the Geant4 Collaboration. It is provided under the terms and * // * conditions of the Geant4 Software License, included in the file * // * LICENSE and available at http://cern.ch/geant4/license . These * // * include a list of copyright holders. * // * * // * Neither the authors of this software system, nor their employing * // * institutes,nor the agencies providing financial support for this * // * work make any representation or warranty, express or implied, * // * regarding this software system or assume any liability for its * // * use. Please see the license in the file LICENSE and URL above * // * for the full disclaimer and the limitation of liability. * // * * // * This code implementation is the result of the scientific and * // * technical work of the GEANT4 collaboration. * // * By using, copying, modifying or distributing the software (or * // * any work based on the software) you agree to acknowledge its * // * use in resulting scientific publications, and indicate your * // * acceptance of all terms of the Geant4 Software license. * // ******************************************************************** // // ******************************************************************** // * * // * cosmicray_charging advanced example for Geant4 * // * (adapted simulation of test-mass charging in the LISA mission) * // * * // * Henrique Araujo (h.araujo@imperial.ac.uk) & Peter Wass * // * Imperial College London * // * * // * LISADetectorConstruction class * // * * // ******************************************************************** // // HISTORY // 22/02/2004: migrated from LISA-V04 // 24/11/2004: migrated to cmath // 24/11/2004: inner boxes made invisible // 08/12/2005: removed compilation warnings // // ******************************************************************** //*************************************************************************** // Electronics Boxes //*************************************************************************** // Lower Deck electronics G4double EB_zoff = -230.*mm; G4ThreeVector EPC1_pos(-680*mm, +580*mm, EB_zoff+0.5*110.*mm); G4ThreeVector EPC2_pos(-680*mm, -580*mm, EB_zoff+0.5*110.*mm); G4ThreeVector GyroPack_pos(+150*mm, +980*mm, EB_zoff+0.5* 85.*mm); G4ThreeVector InstConE1_pos(+720*mm, -190*mm, EB_zoff+0.5*180.*mm); G4ThreeVector InstConE2_pos(+720*mm, +190*mm, EB_zoff+0.5*180.*mm); G4ThreeVector RFDU_pos( +30*mm,-1000*mm, EB_zoff+0.5* 80.*mm); G4ThreeVector StarTrack3_pos(+450*mm, -850*mm, EB_zoff+0.5* 54.*mm); G4ThreeVector StarTrack4_pos(+450*mm, +850*mm, EB_zoff+0.5* 54.*mm); G4ThreeVector STElec1_pos( +30*mm, -720*mm, EB_zoff+0.5*100.*mm); G4ThreeVector STElec2_pos(-280*mm, -900*mm, EB_zoff+0.5*100.*mm); G4ThreeVector STElec3_pos(-280*mm, +900*mm, EB_zoff+0.5*100.*mm); G4ThreeVector STElec4_pos( +30*mm, +720*mm, EB_zoff+0.5*100.*mm); G4ThreeVector TWT1_pos(-730*mm, +350*mm, EB_zoff+0.5* 36.*mm); G4ThreeVector TWT2_pos(-730*mm, -350*mm, EB_zoff+0.5* 36.*mm); G4ThreeVector UVBox1_pos(+180*mm, 0, EB_zoff+0.5* 70.*mm); G4ThreeVector UVBox2_pos(+480*mm, 0, EB_zoff+0.5* 70.*mm); // Upper Deck electronics EB_zoff = 220.*mm; G4ThreeVector PCDU_pos(-770*mm, +600*mm, EB_zoff-0.5*300.*mm); G4ThreeVector CentELCPS_pos(-780*mm, -570*mm, EB_zoff-0.5*115.*mm); G4ThreeVector CentEL2_pos(-250*mm,-1000*mm, EB_zoff-0.5*284.*mm); G4ThreeVector FEEPEL1_pos(-250*mm,+1000*mm, EB_zoff-0.5*200.*mm); G4ThreeVector FEEPEL2_pos(+270*mm,+1020*mm, EB_zoff-0.5*200.*mm); G4ThreeVector HGADrive1_pos( 20*mm,-1210*mm, EB_zoff-0.5*100.*mm); G4ThreeVector HGADrive2_pos( 20*mm,+1210*mm, EB_zoff-0.5*100.*mm); G4ThreeVector InterfelEL1_pos(1030*mm, -180*mm, EB_zoff-0.5*150.*mm); G4ThreeVector InterfelEL2_pos(1030*mm, +180*mm, EB_zoff-0.5*150.*mm); G4ThreeVector LaserEL1_pos(+720*mm, -220*mm, EB_zoff-0.5*100.*mm); G4ThreeVector LaserEL2_pos(+720*mm, +220*mm, EB_zoff-0.5*100.*mm); G4ThreeVector LaserHead1_pos(1100*mm, -400*mm, EB_zoff-0.5* 5.*mm); G4ThreeVector LaserHead2_pos(1010*mm, -480*mm, EB_zoff-0.5* 50.*mm); G4ThreeVector LaserHead3_pos(1100*mm, +400*mm, EB_zoff-0.5* 50.*mm); G4ThreeVector LaserHead4_pos(1010*mm, +480*mm, EB_zoff-0.5* 50.*mm); G4ThreeVector StarTrack1_pos(+650*mm,+1050*mm, EB_zoff-0.5* 54.*mm); G4ThreeVector StarTrack2_pos(+650*mm,-1050*mm, EB_zoff-0.5* 54.*mm); G4ThreeVector Transpond2_pos(+270*mm,-1050*mm, EB_zoff-0.5*178.*mm); // rotations G4RotationMatrix EB_rot1; EB_rot1.rotateZ(+30.*deg); G4RotationMatrix EB_rot2; EB_rot2.rotateZ(-30.*deg); G4RotationMatrix EB_rot3; EB_rot3.rotateZ(+60.*deg); G4RotationMatrix EB_rot4; EB_rot4.rotateZ(-60.*deg); G4double f; // Each box is made from solid Al6061 from which a volume // f times smaller is removed to match assigned mass; // Lower Deck electronics G4Box* EPC_box_o; EPC_box_o = new G4Box("EPC_box_o", 0.5*227.*mm, 0.5*63.*mm, 0.5*110.*mm); G4LogicalVolume* EPC_log_o; EPC_log_o = new G4LogicalVolume(EPC_box_o, Al6061, "EPC_log_o"); G4VPhysicalVolume* EPC_phys_o; EPC_phys_o = new G4PVPlacement(0, spacecraft_pos + EPC1_pos, "EPC_phys_o", EPC_log_o, wld_phys, false, 0); EPC_phys_o = new G4PVPlacement(0, spacecraft_pos + EPC2_pos, "EPC_phys_o", EPC_log_o, wld_phys, false, 1); f = std::pow(1.-1.4/(2.70*227*63*110)*1E6, 1./3.); // G4cout << "f: " << f << G4endl; G4Box* EPC_box_i; EPC_box_i = new G4Box("EPC_box_i", f*0.5*227.*mm, f*0.5*63.*mm, f*0.5*110.*mm); G4LogicalVolume* EPC_log_i; EPC_log_i = new G4LogicalVolume(EPC_box_i, vacuum, "EPC_log_i"); G4VPhysicalVolume* EPC_phys_i; EPC_phys_i = new G4PVPlacement (0, 0, "EPC_phys_i", EPC_log_i, EPC_phys_o, false, 0); // // G4Tubs* GyroPack_tub_o; GyroPack_tub_o = new G4Tubs("GyroPack_tub_o", 0., 0.5*89.*mm, 0.5*85.*mm, 0., 360.*deg); G4LogicalVolume* GyroPack_log_o; GyroPack_log_o = new G4LogicalVolume (GyroPack_tub_o, Al6061, "GyroPack_log_o"); G4VPhysicalVolume* GyroPack_phys_o; GyroPack_phys_o = new G4PVPlacement(0, spacecraft_pos + GyroPack_pos, "GyroPack_phys_o", GyroPack_log_o, wld_phys, false, 0); f = std::pow(1.-1.00/(2.70*pi*(0.5*89.)*(0.5*89.)*85.)*1E6, 1./3.); // G4cout << "f: " << f << G4endl; G4Tubs* GyroPack_tub_i; GyroPack_tub_i = new G4Tubs("GyroPack_tub_i", 0., f*0.5*89.*mm, f*0.5*85.*mm, 0., 360.*deg); G4LogicalVolume* GyroPack_log_i; GyroPack_log_i = new G4LogicalVolume (GyroPack_tub_i, vacuum, "GyroPack_log_i"); G4VPhysicalVolume* GyroPack_phys_i; GyroPack_phys_i = new G4PVPlacement(0, 0, "GyroPack_phys_i", GyroPack_log_i, GyroPack_phys_o, false, 0); // // G4Box* InstConE_box_o; InstConE_box_o = new G4Box("InstConE_box_o", 0.5*250.*mm, 0.5*180.*mm, 0.5*180.*mm); G4LogicalVolume* InstConE_log_o; InstConE_log_o = new G4LogicalVolume (InstConE_box_o, Al6061, "InstConE_log_o"); G4VPhysicalVolume* InstConE_phys_o; InstConE_phys_o = new G4PVPlacement(G4Transform3D (EB_rot1, spacecraft_pos + InstConE1_pos), "InstConE_phys_o", InstConE_log_o, wld_phys, false, 0); InstConE_phys_o = new G4PVPlacement(G4Transform3D (EB_rot2, spacecraft_pos + InstConE2_pos), "InstConE_phys_o", InstConE_log_o, wld_phys, false, 1); f = std::pow(1.-4.5/(2.70*250*180*180)*1E6, 1./3.); G4Box* InstConE_box_i; InstConE_box_i = new G4Box("InstConE_box_i", f*0.5*250.*mm, f*0.5*180.*mm, f*0.5*180.*mm); G4LogicalVolume* InstConE_log_i; InstConE_log_i = new G4LogicalVolume (InstConE_box_i, vacuum, "InstConE_log_i"); G4VPhysicalVolume* InstConE_phys_i; InstConE_phys_i = new G4PVPlacement (0, 0, "InstConE_phys_i", InstConE_log_i, InstConE_phys_o, false, 0); // // G4Box* RFDU_box_o; RFDU_box_o = new G4Box("RFDU_box_o", 0.5*160.*mm, 0.5*60.*mm, 0.5*80.*mm); G4LogicalVolume* RFDU_log_o; RFDU_log_o = new G4LogicalVolume (RFDU_box_o, Al6061, "RFDU_log_o"); G4VPhysicalVolume* RFDU_phys_o; RFDU_phys_o = new G4PVPlacement(0, spacecraft_pos + RFDU_pos, "RFDU_phys_o", RFDU_log_o, wld_phys, false, 0); f = std::pow(1.-1.0/(2.70*160*60*80)*1E6, 1./3.); G4Box* RFDU_box_i; RFDU_box_i = new G4Box("RFDU_box_i", f*0.5*160.*mm, f*0.5*60.*mm, f*0.5*80.*mm); G4LogicalVolume* RFDU_log_i; RFDU_log_i = new G4LogicalVolume(RFDU_box_i, vacuum, "RFDU_log_i"); G4VPhysicalVolume* RFDU_phys_i; RFDU_phys_i = new G4PVPlacement (0, 0, "RFDU_phys_i", RFDU_log_i, RFDU_phys_o, false, 0); // // G4Box* StarTrack_L_box_o; StarTrack_L_box_o = new G4Box("StarStrack_box_o", 0.5*50.*mm, 0.5*50.*mm, 0.5*54.*mm); G4LogicalVolume* StarTrack_L_log_o; StarTrack_L_log_o = new G4LogicalVolume (StarTrack_L_box_o, Al6061, "StarTrack_log_o"); G4VPhysicalVolume* StarTrack_L_phys_o; StarTrack_L_phys_o = new G4PVPlacement(0, spacecraft_pos + StarTrack3_pos, "STarTrack3_phys_o", StarTrack_L_log_o, wld_phys, false, 0); StarTrack_L_phys_o = new G4PVPlacement(0, spacecraft_pos + StarTrack4_pos, "STarTrack4_phys_o", StarTrack_L_log_o, wld_phys, false, 1); f = std::pow(1.-0.30/(2.70*50*50*54)*1E6, 1./3.); G4Box* StarTrack_L_box_i; StarTrack_L_box_i = new G4Box("StarTrack_L_box_i", f*0.5*50.*mm, f*0.5*50.*mm, f*0.5*54.*mm); G4LogicalVolume* StarTrack_L_log_i; StarTrack_L_log_i = new G4LogicalVolume (StarTrack_L_box_i, vacuum, "StarTrack_L_log_i"); G4VPhysicalVolume* StarTrack_L_phys_i; StarTrack_L_phys_i = new G4PVPlacement (0,0,"StarTrack_L_phys_i",StarTrack_L_log_i,StarTrack_L_phys_o,false,0); // // G4Box* STElec_box_o; STElec_box_o = new G4Box("STElec_box_o", 0.5*100.*mm, 0.5*100.*mm, 0.5*100.*mm); G4LogicalVolume* STElec_log_o; STElec_log_o = new G4LogicalVolume (STElec_box_o, Al6061, "STElec_log_o"); G4VPhysicalVolume* STElec_phys_o; STElec_phys_o = new G4PVPlacement(G4Transform3D (EB_rot1, spacecraft_pos + STElec1_pos), "STElec_phys_o", STElec_log_o, wld_phys, false, 0); STElec_phys_o = new G4PVPlacement(G4Transform3D (EB_rot1, spacecraft_pos + STElec2_pos), "STElec_phys_o", STElec_log_o, wld_phys, false, 1); STElec_phys_o = new G4PVPlacement(G4Transform3D (EB_rot2, spacecraft_pos + STElec3_pos), "STElec_phys_o", STElec_log_o, wld_phys, false, 2); STElec_phys_o = new G4PVPlacement(G4Transform3D (EB_rot2, spacecraft_pos + STElec4_pos), "STElec_phys_o", STElec_log_o, wld_phys, false, 3); f = std::pow(1.-2.0/(2.70*100*100*100)*1E6, 1./3.); G4Box* STElec_box_i; STElec_box_i = new G4Box("STElec_box_i", f*0.5*100.*mm, f*0.5*100.*mm, f*0.5*100.*mm); G4LogicalVolume* STElec_log_i; STElec_log_i = new G4LogicalVolume(STElec_box_i, vacuum, "STElec_log_i"); G4VPhysicalVolume* STElec_phys_i; STElec_phys_i = new G4PVPlacement (0, 0, "STElec_phys_i", STElec_log_i, STElec_phys_o, false, 0); // // G4Box* TWT_box_o; TWT_box_o = new G4Box("TWT_box_o", 0.5*321.*mm, 0.5*58.*mm, 0.5*36.*mm); G4LogicalVolume* TWT_log_o; TWT_log_o = new G4LogicalVolume (TWT_box_o, Al6061, "TWT_log_o"); G4VPhysicalVolume* TWT_phys_o; TWT_phys_o = new G4PVPlacement(0, spacecraft_pos + TWT1_pos, "TWT_phys_o", TWT_log_o, wld_phys, false, 0); TWT_phys_o = new G4PVPlacement(0, spacecraft_pos + TWT2_pos, "TWT_phys_o", TWT_log_o, wld_phys, false, 1); f = std::pow(1.-0.75/(2.70*321*58*36)*1E6, 1./3.); G4Box* TWT_box_i = new G4Box("TWT_box_i", f*0.5*321.*mm, f*0.5*58.*mm, f*0.5*36.*mm); G4LogicalVolume* TWT_log_i; TWT_log_i = new G4LogicalVolume (TWT_box_i, vacuum, "TWT_log_i"); G4VPhysicalVolume* TWT_phys_i; TWT_phys_i = new G4PVPlacement (0, 0, "TWT_phys_i", TWT_log_i, TWT_phys_o, false, 0); // // G4Box* UVBox_box_o; UVBox_box_o = new G4Box("UVBox_box_o", 0.5*150.*mm, 0.5*100.*mm, 0.5*70.*mm); G4LogicalVolume* UVBox_log_o; UVBox_log_o = new G4LogicalVolume (UVBox_box_o, Al6061, "UVBox_log_o"); G4VPhysicalVolume* UVBox_phys_o; UVBox_phys_o = new G4PVPlacement(0, spacecraft_pos + UVBox1_pos, "UVBox_phys_o", UVBox_log_o, wld_phys, false, 0); UVBox_phys_o = new G4PVPlacement(0, spacecraft_pos + UVBox2_pos, "UVBox_phys_o", UVBox_log_o, wld_phys, false, 1); f = std::pow(1.-0.50/(2.70*150*100*70)*1E6, 1./3.); G4Box* UVBox_box_i; UVBox_box_i = new G4Box("UVBox_box_i", f*0.5*150.*mm, f*0.5*100.*mm, f*0.5*70.*mm); G4LogicalVolume* UVBox_log_i; UVBox_log_i = new G4LogicalVolume (UVBox_box_i, vacuum, "UVBox_log_i"); G4VPhysicalVolume* UVBox_phys_i; UVBox_phys_i = new G4PVPlacement (0, 0, "UVBox_phys_i", UVBox_log_i, UVBox_phys_o, false, 0); // Upper Deck electronics G4Box* PCDU_box_o; PCDU_box_o = new G4Box("PCDU_box_o", 0.5*200.*mm, 0.5*350.*mm, 0.5*300.*mm); G4LogicalVolume* PCDU_log_o; PCDU_log_o = new G4LogicalVolume (PCDU_box_o, Al6061, "PCDU_log_o"); G4VPhysicalVolume* PCDU_phys_o; PCDU_phys_o = new G4PVPlacement(0, spacecraft_pos + PCDU_pos, "PCDU_phys_o", PCDU_log_o, wld_phys, false, 0); f = std::pow(1.-15.90/(2.70*200*350*300)*1E6, 1./3.); G4Box* PCDU_box_i; PCDU_box_i = new G4Box("PCDU_box_i", f*0.5*200.*mm, f*0.5*350.*mm, f*0.5*300.*mm); G4LogicalVolume* PCDU_log_i; PCDU_log_i = new G4LogicalVolume (PCDU_box_i, vacuum, "PCDU_log_i"); G4VPhysicalVolume* PCDU_phys_i; PCDU_phys_i = new G4PVPlacement (0, 0, "PCDU_phys_i", PCDU_log_i, PCDU_phys_o, false, 0); // // G4Box* CentELCPS_box_o; CentELCPS_box_o = new G4Box("CentELCPS_box_o", 0.5*240.*mm, 0.5*356.*mm, 0.5*140.*mm); G4LogicalVolume* CentELCPS_log_o; CentELCPS_log_o = new G4LogicalVolume (CentELCPS_box_o, Al6061, "CentELCPS_log_o"); G4VPhysicalVolume* CentELCPS_phys_o; CentELCPS_phys_o = new G4PVPlacement(0, spacecraft_pos + CentELCPS_pos, "CentELCPS_phys_o", CentELCPS_log_o, wld_phys, false, 0); f = std::pow(1.-15.90/(2.70*240*356*140)*1E6, 1./3.); G4Box* CentELCPS_box_i; CentELCPS_box_i = new G4Box("CentELCPS_box_i", f*0.5*240.*mm, f*0.5*356.*mm, f*0.5*140.*mm); G4LogicalVolume* CentELCPS_log_i; CentELCPS_log_i = new G4LogicalVolume (CentELCPS_box_i, vacuum, "CentELCPS_log_i"); G4VPhysicalVolume* CentELCPS_phys_i; CentELCPS_phys_i = new G4PVPlacement (0, 0, "CentELCPS_phys_i", CentELCPS_log_i, CentELCPS_phys_o, false, 0); // // G4Box* CentEL2_box_o; CentEL2_box_o = new G4Box("CentEL2_box_o", 0.5*220.*mm, 0.5*184.*mm, 0.5*284.*mm); G4LogicalVolume* CentEL2_log_o; CentEL2_log_o = new G4LogicalVolume (CentEL2_box_o, Al6061, "CentEL2_log_o"); G4VPhysicalVolume* CentEL2_phys_o; CentEL2_phys_o = new G4PVPlacement(G4Transform3D (EB_rot3, spacecraft_pos + CentEL2_pos), "CentEL2_phys_o", CentEL2_log_o, wld_phys, false, 0); f = std::pow(1.-15.90/(2.70*220*184*284)*1E6, 1./3.); G4Box* CentEL2_box_i; CentEL2_box_i = new G4Box("CentEL2_box_i", f*0.5*220.*mm, f*0.5*184.*mm, f*0.5*284.*mm); G4LogicalVolume* CentEL2_log_i; CentEL2_log_i = new G4LogicalVolume (CentEL2_box_i, vacuum, "CentEL2_log_i"); G4VPhysicalVolume* CentEL2_phys_i; CentEL2_phys_i = new G4PVPlacement (0, 0, "CentEL2_phys_i", CentEL2_log_i, CentEL2_phys_o, false, 0); // // G4Box* FEEPEL_box_o; FEEPEL_box_o = new G4Box("FEEPEL_box_o", 0.5*260.*mm, 0.5*170.*mm, 0.5*200.*mm); G4LogicalVolume* FEEPEL_log_o; FEEPEL_log_o = new G4LogicalVolume (FEEPEL_box_o, Al6061, "FEEPEL_log_o"); G4VPhysicalVolume* FEEPEL_phys_o; FEEPEL_phys_o = new G4PVPlacement(G4Transform3D (EB_rot4, spacecraft_pos + FEEPEL1_pos), "FEEPEL_phys_o", FEEPEL_log_o, wld_phys, false, 0); FEEPEL_phys_o = new G4PVPlacement(G4Transform3D (EB_rot1, spacecraft_pos + FEEPEL2_pos), "FEEPEL_phys_o", FEEPEL_log_o, wld_phys, false, 1); f = std::pow(1.-6.50/(2.70*260*170*200)*1E6, 1./3.); G4Box* FEEPEL_box_i; FEEPEL_box_i = new G4Box("FEEPEL_box_i", f*0.5*260.*mm, f*0.5*170.*mm, f*0.5*200.*mm); G4LogicalVolume* FEEPEL_log_i; FEEPEL_log_i = new G4LogicalVolume (FEEPEL_box_i, vacuum, "FEEPEL_log_i"); G4VPhysicalVolume* FEEPEL_phys_i; FEEPEL_phys_i = new G4PVPlacement (0, 0, "FEEPEL_phys_i", FEEPEL_log_i, FEEPEL_phys_o, false, 0); // // G4Box* HGADrive_box_o; HGADrive_box_o = new G4Box("HGADrive_box_o", 0.5*100.*mm, 0.5*100.*mm, 0.5*100.*mm); G4LogicalVolume* HGADrive_log_o; HGADrive_log_o = new G4LogicalVolume (HGADrive_box_o, Al6061, "HGADrive_log_o"); G4VPhysicalVolume* HGADrive_phys_o; HGADrive_phys_o = new G4PVPlacement(0, spacecraft_pos + HGADrive1_pos, "HGADrive_phys_o", HGADrive_log_o, wld_phys, false, 0); HGADrive_phys_o = new G4PVPlacement(0, spacecraft_pos + HGADrive2_pos, "HGADrive_phys_o", HGADrive_log_o, wld_phys, false, 1); f = std::pow(1.-1.00/(2.70*100*100*100)*1E6, 1./3.); G4Box* HGADrive_box_i; HGADrive_box_i = new G4Box("HGADrive_box_i", f*0.5*100.*mm, f*0.5*100.*mm, f*0.5*100.*mm); G4LogicalVolume* HGADrive_log_i; HGADrive_log_i = new G4LogicalVolume (HGADrive_box_i, vacuum, "HGADrive_log_i"); G4VPhysicalVolume* HGADrive_phys_i; HGADrive_phys_i = new G4PVPlacement (0, 0, "HGADrive_phys_i", HGADrive_log_i, HGADrive_phys_o, false, 0); // // G4Box* InterfelEL_box_o; InterfelEL_box_o = new G4Box("InterfelEL_box_o", 0.5*200.*mm, 0.5*200.*mm, 0.5*150.*mm); G4LogicalVolume* InterfelEL_log_o; InterfelEL_log_o = new G4LogicalVolume (InterfelEL_box_o, Al6061, "InterfelEL_log_o"); G4VPhysicalVolume* InterfelEL_phys_o; InterfelEL_phys_o = new G4PVPlacement(0, spacecraft_pos + InterfelEL1_pos, "InterfelEL_phys_o", InterfelEL_log_o, wld_phys, false, 0); InterfelEL_phys_o = new G4PVPlacement(0, spacecraft_pos + InterfelEL2_pos, "InterfelEL_phys_o", InterfelEL_log_o, wld_phys, false, 1); f = std::pow(1.-3.50/(2.70*200*200*150)*1E6, 1./3.); G4Box* InterfelEL_box_i; InterfelEL_box_i = new G4Box("InterfelEL_box_i", f*0.5*200.*mm, f*0.5*200.*mm, f*0.5*150.*mm); G4LogicalVolume* InterfelEL_log_i; InterfelEL_log_i = new G4LogicalVolume (InterfelEL_box_i, vacuum, "InterfelEL_log_i"); G4VPhysicalVolume* InterfelEL_phys_i; InterfelEL_phys_i = new G4PVPlacement(0, 0, "InterfelEL_phys_i", InterfelEL_log_i, InterfelEL_phys_o, false, 0); // // G4Box* LaserEL_box_o; LaserEL_box_o = new G4Box("LaserEL_box_o", 0.5*200.*mm, 0.5*200.*mm, 0.5*100.*mm); G4LogicalVolume* LaserEL_log_o; LaserEL_log_o = new G4LogicalVolume (LaserEL_box_o, Al6061, "LaserEL_log_o"); G4VPhysicalVolume* LaserEL_phys_o; LaserEL_phys_o = new G4PVPlacement(G4Transform3D (EB_rot1, spacecraft_pos + LaserEL1_pos), "LaserEL_phys_o", LaserEL_log_o, wld_phys, false, 0); LaserEL_phys_o = new G4PVPlacement(G4Transform3D (EB_rot2, spacecraft_pos + LaserEL2_pos), "LaserEL_phys_o", LaserEL_log_o, wld_phys, false, 1); f = std::pow(1.-3.00/(2.70*200*200*100)*1E6, 1./3.); G4Box* LaserEL_box_i; LaserEL_box_i = new G4Box("LaserEL_box_i", f*0.5*200.*mm, f*0.5*200.*mm, f*0.5*100.*mm); G4LogicalVolume* LaserEL_log_i; LaserEL_log_i = new G4LogicalVolume (LaserEL_box_i, vacuum, "LaserEL_log_i"); G4VPhysicalVolume* LaserEL_phys_i; LaserEL_phys_i = new G4PVPlacement (0, 0, "LaserEL_phys_i", LaserEL_log_i, LaserEL_phys_o, false, 0); // // G4Box* LaserHead_box_o; LaserHead_box_o = new G4Box("LaserHead_box_o", 0.5*100.*mm, 0.5*100.*mm, 0.5*50.*mm); G4LogicalVolume* LaserHead_log_o; LaserHead_log_o = new G4LogicalVolume (LaserHead_box_o, Al6061, "LaserHead_log_o"); G4VPhysicalVolume* LaserHead_phys_o; LaserHead_phys_o = new G4PVPlacement(G4Transform3D (EB_rot3, spacecraft_pos + LaserHead1_pos), "LaserHead_phys_o", LaserHead_log_o, wld_phys, false, 0); LaserHead_phys_o = new G4PVPlacement(G4Transform3D (EB_rot3, spacecraft_pos + LaserHead2_pos), "LaserHead_phys_o", LaserHead_log_o, wld_phys, false, 1); LaserHead_phys_o = new G4PVPlacement(G4Transform3D (EB_rot4, spacecraft_pos + LaserHead3_pos), "LaserHead_phys_o", LaserHead_log_o, wld_phys, false, 2); LaserHead_phys_o = new G4PVPlacement(G4Transform3D (EB_rot4, spacecraft_pos + LaserHead4_pos), "LaserHead_phys_o", LaserHead_log_o, wld_phys, false, 3); f = std::pow(1.-0.70/(2.70*100*100*50)*1E6, 1./3.); G4Box* LaserHead_box_i; LaserHead_box_i = new G4Box("LaserHead_box_i", f*0.5*100.*mm, f*0.5*100.*mm, f*0.5*50.*mm); G4LogicalVolume* LaserHead_log_i; LaserHead_log_i = new G4LogicalVolume (LaserHead_box_i, vacuum, "LaserHead_log_i"); G4VPhysicalVolume* LaserHead_phys_i; LaserHead_phys_i = new G4PVPlacement (0, 0, "LaserHead_phys_i", LaserHead_log_i, LaserHead_phys_o, false, 0); // // G4Box* StarTrack_U_box_o; StarTrack_U_box_o = new G4Box("StarStrack_box_o", 0.5*50.*mm, 0.5*50.*mm, 0.5*54.*mm); G4LogicalVolume* StarTrack_U_log_o; StarTrack_U_log_o = new G4LogicalVolume (StarTrack_U_box_o, Al6061, "StarTrack_log_o"); G4VPhysicalVolume* StarTrack_U_phys_o; StarTrack_U_phys_o = new G4PVPlacement(0, spacecraft_pos + StarTrack1_pos, "STarTrack_phys_o", StarTrack_U_log_o, wld_phys, false, 0); StarTrack_U_phys_o = new G4PVPlacement(0, spacecraft_pos + StarTrack2_pos, "STarTrack_phys_o", StarTrack_U_log_o, wld_phys, false, 1); f = std::pow(1.-0.30/(2.70*50*50*54)*1E6, 1./3.); G4Box* StarTrack_U_box_i; StarTrack_U_box_i = new G4Box("StarTrack_U_box_i", f*0.5*50.*mm, f*0.5*50.*mm, f*0.5*54.*mm); G4LogicalVolume* StarTrack_U_log_i; StarTrack_U_log_i = new G4LogicalVolume (StarTrack_U_box_i, vacuum, "StarTrack_U_log_i"); G4VPhysicalVolume* StarTrack_U_phys_i; StarTrack_U_phys_i = new G4PVPlacement(0, 0, "StarTrack_U_phys_i", StarTrack_U_log_i, StarTrack_U_phys_o, false, 0); // // G4Box* Transpond2_box_o; Transpond2_box_o = new G4Box("Transpond2_box_o", 0.5*220.*mm, 0.5*184.*mm, 0.5*178.*mm); G4LogicalVolume* Transpond2_log_o; Transpond2_log_o = new G4LogicalVolume (Transpond2_box_o, Al6061, "Transpond2_log_o"); G4VPhysicalVolume* Transpond2_phys_o; Transpond2_phys_o = new G4PVPlacement(G4Transform3D (EB_rot2, spacecraft_pos + Transpond2_pos), "Transpond2_phys_o", Transpond2_log_o, wld_phys, false, 0); f = std::pow(1.-3.50/(2.70*220*184*178)*1E6, 1./3.); G4Box* Transpond2_box_i; Transpond2_box_i = new G4Box("Transpond2_box_i", f*0.5*220.*mm, f*0.5*184.*mm, f*0.5*178.*mm); G4LogicalVolume* Transpond2_log_i; Transpond2_log_i = new G4LogicalVolume (Transpond2_box_i, vacuum, "Transpond2_log_i"); G4VPhysicalVolume* Transpond2_phys_i; Transpond2_phys_i = new G4PVPlacement(0, 0, "Transpond2_phys_i", Transpond2_log_i, Transpond2_phys_o, false, 0); // vis Attributes EPC_log_o->SetVisAttributes(sol_blue_vat); GyroPack_log_o->SetVisAttributes(sol_blue_vat); InstConE_log_o->SetVisAttributes(sol_blue_vat); RFDU_log_o->SetVisAttributes(sol_blue_vat); StarTrack_L_log_o->SetVisAttributes(sol_blue_vat); STElec_log_o->SetVisAttributes(sol_blue_vat); TWT_log_o->SetVisAttributes(sol_blue_vat); UVBox_log_o->SetVisAttributes(sol_blue_vat); EPC_log_i->SetVisAttributes(G4VisAttributes::Invisible); GyroPack_log_i->SetVisAttributes(G4VisAttributes::Invisible); InstConE_log_i->SetVisAttributes(G4VisAttributes::Invisible); RFDU_log_i->SetVisAttributes(G4VisAttributes::Invisible); StarTrack_L_log_i->SetVisAttributes(G4VisAttributes::Invisible); STElec_log_i->SetVisAttributes(G4VisAttributes::Invisible); TWT_log_i->SetVisAttributes(G4VisAttributes::Invisible); UVBox_log_i->SetVisAttributes(G4VisAttributes::Invisible); PCDU_log_o->SetVisAttributes(sol_lblue_vat); CentELCPS_log_o->SetVisAttributes(sol_lblue_vat); CentEL2_log_o->SetVisAttributes(sol_lblue_vat); FEEPEL_log_o->SetVisAttributes(sol_lblue_vat); HGADrive_log_o->SetVisAttributes(sol_lblue_vat); InterfelEL_log_o->SetVisAttributes(sol_lblue_vat); LaserEL_log_o->SetVisAttributes(sol_lblue_vat); LaserHead_log_o->SetVisAttributes(sol_lblue_vat); StarTrack_U_log_o->SetVisAttributes(sol_lblue_vat); Transpond2_log_o->SetVisAttributes(sol_lblue_vat); PCDU_log_i->SetVisAttributes(G4VisAttributes::Invisible); CentELCPS_log_i->SetVisAttributes(G4VisAttributes::Invisible); CentEL2_log_i->SetVisAttributes(G4VisAttributes::Invisible); FEEPEL_log_i->SetVisAttributes(G4VisAttributes::Invisible); HGADrive_log_i->SetVisAttributes(G4VisAttributes::Invisible); InterfelEL_log_i->SetVisAttributes(G4VisAttributes::Invisible); LaserEL_log_i->SetVisAttributes(G4VisAttributes::Invisible); LaserHead_log_i->SetVisAttributes(G4VisAttributes::Invisible); StarTrack_U_log_i->SetVisAttributes(G4VisAttributes::Invisible); Transpond2_log_i->SetVisAttributes(G4VisAttributes::Invisible); // **************************************************************************