[4] | 1 | function varargout = lat_nano_5m_20_30 |
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| 2 | %solamor2 - soleil lattice w/o ID |
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| 3 | % Lattice definition file |
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| 4 | % Lattice for SOLEIL: perfect lattice no magnetic errors |
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| 5 | |
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| 6 | % Compiled by Laurent Nadolski and Amor Nadji |
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| 7 | % 09/01/02, ALS |
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| 8 | % mai 2006 : mis à jour vraies cotes BPM, correcteurs, dipole (coins, |
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| 9 | % chamd de fuite et gradient) |
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| 10 | % A. Nadji et P. Brunelle |
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| 11 | % Controlroom : set linearpass for quad (closed orbit) |
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| 12 | % No cavity; No Radiation PassMethod |
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| 13 | % April 20th 2007, Laurent S. nadolski |
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| 14 | % BPM downstream injection section had wrong location by |
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| 15 | % 30 mm, 2 FCOR in injection straight section was not at their proper |
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| 16 | % location |
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| 17 | % November 24th 2007, Laurent S. Nadolski |
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| 18 | % Bpms 5 on the wrong side of sextupole in cell 4, 8, 12 and 16 |
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| 19 | % December 7th, 2007, Laurent S. Nadolski |
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| 20 | % Added KEM V & H, K1 & K2 markers modelled as thin element |
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| 21 | % October 1, 2008 |
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| 22 | % Lattice with tunes 18.2020 and 10.3170 |
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| 23 | % Octobre 27, 2008 |
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| 24 | % Lattice with tunes 18.2020 and 10.3170 |
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| 25 | % Lattice with chromaticities 2.0 and 2.0 |
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| 26 | % March 4, 2009 |
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| 27 | % FHCOR and FVCOR [1 1] steerer moved 2180 mm upstream, |
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| 28 | % closed to entrance of vertical kicker |
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| 29 | % March 2009 - New quadrupole model from MAT with intermediate length |
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| 30 | % June 2009 - magnetcoefficient with index June 9 was changed |
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| 31 | % for sextupoles calibration |
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| 32 | % for quadrupole Just all ranges for quad variation with fit are present |
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| 33 | % July 2009 - Add PX2 Chicane |
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| 34 | % December 2009 - Add Nanonscopium |
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| 35 | |
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| 36 | global FAMLIST THERING GLOBVAL |
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| 37 | |
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| 38 | GLOBVAL.E0 = 2.7391e9; % Ring energy |
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| 39 | GLOBVAL.LatticeFile = mfilename; |
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| 40 | FAMLIST = cell(0); |
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| 41 | |
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| 42 | disp(['** Loading SOLEIL magnet lattice ', mfilename]); |
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| 43 | |
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| 44 | L0 = 354.0968203999998; % design length [m] |
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| 45 | C0 = 2.99792458e8; % speed of light [m/s] |
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| 46 | HarmNumber = 416; |
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| 47 | |
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| 48 | %% Cavity |
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| 49 | % NAME L U[V] f[Hz] h method |
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| 50 | CAV = rfcavity('RF' , 0 , 4.0e+6 , HarmNumber*C0/L0, ... |
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| 51 | HarmNumber ,'CavityPass'); |
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| 52 | |
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| 53 | %% Marker and apertures |
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| 54 | SECT1 = marker('SECT1', 'IdentityPass'); |
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| 55 | SECT2 = marker('SECT2', 'IdentityPass'); |
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| 56 | SECT3 = marker('SECT3', 'IdentityPass'); |
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| 57 | SECT4 = marker('SECT4', 'IdentityPass'); |
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| 58 | DEBUT = marker('DEBUT', 'IdentityPass'); |
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| 59 | FIN = marker('FIN', 'IdentityPass'); |
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| 60 | |
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| 61 | INJ = aperture('INJ',[-0.035 0.035 -0.0125 0.0125],'AperturePass'); |
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| 62 | |
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| 63 | %% Injection section |
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| 64 | PtINJ = marker('PtINJ', 'IdentityPass'); |
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| 65 | K1 = marker('K1', 'IdentityPass'); |
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| 66 | K2 = marker('K2', 'IdentityPass'); |
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| 67 | K3 = marker('K3', 'IdentityPass'); |
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| 68 | K4 = marker('K4', 'IdentityPass'); |
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| 69 | |
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| 70 | %% BPM |
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| 71 | BPM = marker('BPM', 'IdentityPass'); |
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| 72 | |
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| 73 | %% DRIFT SPACES |
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| 74 | |
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| 75 | SD1a = drift('SD1a', 1.4125, 'DriftPass'); |
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| 76 | SD1b = drift('SD1b', 0.7575, 'DriftPass'); |
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| 77 | SD2 = drift('SD2', 0.369900, 'DriftPass'); |
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| 78 | SD3 = drift('SD3', 0.181900, 'DriftPass'); |
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| 79 | SD5 = drift('SD5', 0.179900, 'DriftPass'); |
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| 80 | SD6 = drift('SD6', 0.79000, 'DriftPass'); |
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| 81 | SD7 = drift('SD7', 0.419900, 'DriftPass'); |
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| 82 | SD8 = drift('SD8', 0.1799000, 'DriftPass'); |
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| 83 | SD12= drift('SD12', 0.44990, 'DriftPass'); |
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| 84 | SD1d = drift('SD1d', 0.5170, 'DriftPass'); |
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| 85 | SD14a = drift('SD14a', 0.38500000, 'DriftPass'); |
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| 86 | SD9a = drift('SD9a', 0.204200 , 'DriftPass'); |
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| 87 | SD10a = drift('SD10a', 0.172300 , 'DriftPass'); |
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| 88 | SDAC1 = drift('SDAC1', 1.48428 , 'DriftPass'); |
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| 89 | SD13a= drift('SD13a', 3.141452 , 'DriftPass'); |
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| 90 | SD1e = drift('SD1e', 5.6589, 'DriftPass'); |
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| 91 | SD1c1 = drift('SD1c1', 0.8410, 'DriftPass'); % K3 - FCOR |
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| 92 | SD1c2 = drift('SD1c2', 0.601, 'DriftPass'); % FCOR KEMH |
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| 93 | SD1c3 = drift('SD1c3', 1.560, 'DriftPass'); % KEMH - K4 |
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| 94 | SD91 = drift('SD91', 0.251240, 'DriftPass'); |
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| 95 | SD41 = drift('SD41', 0.2521, 'DriftPass'); |
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| 96 | SD42 = drift('SD42', 0.205, 'DriftPass'); |
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| 97 | SD92 = drift('SD92', 0.204300, 'DriftPass'); |
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| 98 | SD93 = drift('SD93', 0.251300 , 'DriftPass'); |
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| 99 | SD43 = drift('SD43', 0.2051 , 'DriftPass'); |
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| 100 | SD141 = drift('SD141', 0.431900, 'DriftPass'); |
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| 101 | SDB1 = drift('SDB1', 0.29100, 'DriftPass'); |
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| 102 | SDB2 = drift('SDB2', 0.16680000, 'DriftPass'); |
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| 103 | SDB3 = drift('SDB3', 0.252, 'DriftPass'); |
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| 104 | SDB4 = drift('SDB4', 0.2776 ,'DriftPass'); |
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| 105 | SDB5 = drift('SDB5', 0.205 ,'DriftPass'); |
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| 106 | SDB6 = drift('SDB6', 0.119800 ,'DriftPass'); |
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| 107 | SDB7 = drift('SDB7', 0.166900 , 'DriftPass'); |
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| 108 | SDB8 = drift('SDB8', 0.252 , 'DriftPass'); |
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| 109 | SDB9 = drift('SDB9', 0.119800 ,'DriftPass'); |
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| 110 | SDB10= drift('SDB10',0.166900 , 'DriftPass'); |
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| 111 | SDB11= drift('SDB11',0.2519, 'DriftPass'); |
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| 112 | SDB12= drift('SDB12',0.2049, 'DriftPass'); |
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| 113 | SDB13= drift('SDB13',0.119800, 'DriftPass'); |
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| 114 | SDB14= drift('SDB14',0.1668000, 'DriftPass'); |
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| 115 | SDB15= drift('SDB15',0.252 , 'DriftPass'); |
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| 116 | SDB17= drift('SDB17',0.205 , 'DriftPass'); |
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| 117 | SDB18= drift('SDB18', 0.119900, 'DriftPass'); |
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| 118 | SDC1 = drift('SDC1' , 0.241900, 'DriftPass'); |
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| 119 | SDC2 = drift('SDC2' , 0.079000, 'DriftPass'); |
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| 120 | SDC3 = drift('SDC3' , 0.078450, 'DriftPass'); |
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| 121 | SDC4 = drift('SDC4' , 0.335800, 'DriftPass'); |
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| 122 | SDC5 = drift('SDC5' , 0.084600, 'DriftPass'); |
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| 123 | SDC6 = drift('SDC6' , 0.079000, 'DriftPass'); |
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| 124 | SDC7 = drift('SDC7' , 0.342000, 'DriftPass'); |
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| 125 | SDC8 = drift('SDC8' , 0.241900, 'DriftPass'); |
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| 126 | SDC9 = drift('SDC9' , 0.079000, 'DriftPass'); |
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| 127 | SDC10= drift('SDC10',0.07845, 'DriftPass'); |
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| 128 | SDC11= drift('SDC11',0.2419000 , 'DriftPass'); |
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| 129 | SDC12= drift('SDC12',0.3358 , 'DriftPass'); |
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| 130 | SDC13= drift('SDC13',0.0846 , 'DriftPass'); |
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| 131 | SDC14= drift('SDC14',0.0788 , 'DriftPass'); |
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| 132 | SDC15= drift('SDC15',0.3422 , 'DriftPass'); |
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| 133 | SDC16= drift('SDC16',0.241900 , 'DriftPass'); |
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| 134 | SDC17= drift('SDC17',0.079 , 'DriftPass'); |
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| 135 | SDC18= drift('SDC18',0.07845, 'DriftPass'); |
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| 136 | SDC19= drift('SDC19',0.24190 , 'DriftPass'); |
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| 137 | SDC20= drift('SDC20',0.241900 , 'DriftPass'); |
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| 138 | SDC21= drift('SDC21',0.079 , 'DriftPass'); |
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| 139 | SDC22= drift('SDC22',0.29090 , 'DriftPass'); |
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| 140 | SDC24= drift('SDC24',1.379 , 'DriftPass'); |
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| 141 | %SDC23a= drift('SDC23a',0.632 , 'DriftPass'); % BPM - K1 |
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| 142 | SDC23b= drift('SDC23b',1.983 , 'DriftPass'); % K1 - KEMV |
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| 143 | SDC23c= drift('SDC23c',1.019 , 'DriftPass'); % KEMV - K2 |
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| 144 | SDC23d= drift('SDC23d',0.676 , 'DriftPass'); % K2 - FCOR |
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| 145 | SDC23e= drift('SDC23a',0.147 , 'DriftPass'); % BPM - FCOR [1 1] |
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| 146 | SDC23f= drift('SDC23a',0.485 , 'DriftPass'); % FCOR [1 1] next SD |
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| 147 | SDPX2a= drift('SDC23a',0.363902, 'DriftPass'); % FCOR [1 1] next SD |
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| 148 | SDPX2b= drift('SDC23a',2.85755, 'DriftPass'); % FCOR [1 1] next SD |
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| 149 | SDPX2c= drift('SDC23a', 0.203902, 'DriftPass'); % FCOR [1 1] next SD |
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| 150 | % nanoscopium |
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| 151 | SDNSC1 = drift('SDNSC', 4.5888, 'DriftPass'); |
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| 152 | SDNSC2 = drift('SDNSC', 0.4618, 'DriftPass'); |
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| 153 | |
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| 154 | % HU640 straight section |
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| 155 | SDHU640a = drift('SDHU640a', 1.7394, 'DriftPass'); |
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| 156 | SDHU640b = drift('SDHU640b', 0.64, 'DriftPass'); |
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| 157 | SDHU640c = drift('SDHU640c', 3.2795, 'DriftPass'); |
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| 158 | SDHU640d = drift('SDHU640d', 3.1195, 'DriftPass'); |
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| 159 | SDHU640e = drift('SDHU640e', 0.64, 'DriftPass'); |
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| 160 | SDHU640f = drift('SDHU640f', 1.8994, 'DriftPass'); |
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| 161 | |
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| 162 | %% QUADRUPOLES (compensation de l'effet des défauts de focalisation des |
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| 163 | LQC = 0.180100E+00*2; |
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| 164 | LQL = 0.248100E+00*2; |
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| 165 | Q1 = quadrupole('Q1' , LQC, -0.1162513E+01, 'QuadLinearPass'); |
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| 166 | Q2 = quadrupole('Q2' , LQL, 0.1684635E+01, 'QuadLinearPass'); |
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| 167 | Q3 = quadrupole('Q3' , LQC, -0.6900854E+00, 'QuadLinearPass'); |
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| 168 | Q4 = quadrupole('Q4' , LQC, -0.1209553E+01, 'QuadLinearPass'); |
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| 169 | Q5 = quadrupole('Q5' , LQC, 0.1699387E+01, 'QuadLinearPass'); |
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| 170 | Q6 = quadrupole('Q6' , LQC, -0.1173207E+01, 'QuadLinearPass'); |
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| 171 | Q7 = quadrupole('Q7' , LQL, 0.2016571E+01, 'QuadLinearPass'); |
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| 172 | Q8 = quadrupole('Q8' , LQC, -0.1325158E+01, 'QuadLinearPass'); |
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| 173 | Q9 = quadrupole('Q9' , LQC, -0.1377265E+01 , 'QuadLinearPass'); |
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| 174 | Q10 = quadrupole('Q10', LQC, 0.1735168E+01 , 'QuadLinearPass'); |
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| 175 | Q11 = quadrupole('Q11', LQC, -0.1695592E+01 , 'QuadLinearPass'); |
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| 176 | Q12 = quadrupole('Q12', LQL, 0.1695717E+01, 'QuadLinearPass'); |
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| 177 | |
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| 178 | |
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| 179 | %% SEXTUPOLES chromaticités nulles dans TracyII |
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| 180 | %avec defauts de focalisation des dipoles |
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| 181 | %P. Brunelle 02/05/06 |
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| 182 | F = 1e8; |
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| 183 | Finv = 1/F; |
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| 184 | |
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| 185 | S1 = sextupole('S1' , Finv, 0.300*5*F, 'StrMPoleSymplectic4Pass'); |
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| 186 | S2 = sextupole('S2' , Finv, -0.715*5*F, 'StrMPoleSymplectic4Pass'); |
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| 187 | S3 = sextupole('S3' , Finv, -0.338*5*F, 'StrMPoleSymplectic4Pass'); |
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| 188 | S4 = sextupole('S4' , Finv, 0.697*5*F, 'StrMPoleSymplectic4Pass'); |
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| 189 | S5 = sextupole('S5' , Finv, -0.672*5*F, 'StrMPoleSymplectic4Pass'); |
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| 190 | S6 = sextupole('S6' , Finv, 0.667*5*F, 'StrMPoleSymplectic4Pass'); |
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| 191 | S7 = sextupole('S7' , Finv, -0.992*5*F, 'StrMPoleSymplectic4Pass'); |
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| 192 | S8 = sextupole('S8' , Finv, 0.778*5*F, 'StrMPoleSymplectic4Pass'); |
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| 193 | S9 = sextupole('S9' , Finv, -0.791*5*F, 'StrMPoleSymplectic4Pass'); |
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| 194 | S10 = sextupole('S10', Finv, 0.468*5*F, 'StrMPoleSymplectic4Pass'); |
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| 195 | S11 = sextupole('S11', Finv, 0.300*5*F, 'StrMPoleSymplectic4Pass'); |
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| 196 | |
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| 197 | %% Skew quadrupoles |
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| 198 | QT = skewquad('SkewQuad', 1e-8, 0.0, 'StrMPoleSymplectic4Pass'); |
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| 199 | QTPX2 = skewquad('QTPX2', 1e-10, 0.0, 'StrMPoleSymplectic4Pass'); |
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| 200 | |
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| 201 | %% Slow feedback correctors |
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| 202 | COR = corrector('COR',0.0,[0 0],'CorrectorPass'); |
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| 203 | |
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| 204 | %% PX2C H-correctors |
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| 205 | PX2 = corrector('PX2C',0.0,[0 0],'CorrectorPass'); |
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| 206 | PX2C= [QTPX2 PX2]; |
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| 207 | |
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| 208 | %% Machine study kickers |
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| 209 | KEMH = corrector('KEMH',0.0,[0 0],'CorrectorPass'); |
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| 210 | KEMV = corrector('KEMV',0.0,[0 0],'CorrectorPass'); |
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| 211 | |
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| 212 | %% HU640 |
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| 213 | HCMHU640 = corrector('HCMHU640',0.0,[0 0],'CorrectorPass'); |
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| 214 | VCMHU640 = corrector('VCMHU640',0.0,[0 0],'CorrectorPass'); |
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| 215 | |
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| 216 | HU640upstream = [SDHU640a VCMHU640 SDHU640b HCMHU640 SDHU640c]; |
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| 217 | HU640downstream = [SDHU640d HCMHU640 SDHU640e VCMHU640 SDHU640f]; |
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| 218 | |
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| 219 | %% Fast feedback correctors |
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| 220 | FCOR = corrector('FCOR',0.0,[0 0],'CorrectorPass'); |
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| 221 | |
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| 222 | SX1 = [S1 COR QT]; |
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| 223 | SX2 = [S2 COR QT]; |
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| 224 | SX3 = [S3 COR QT]; |
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| 225 | SX4 = [S4 COR QT]; |
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| 226 | SX5 = [S5 COR QT]; |
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| 227 | SX6 = [S6 COR QT]; |
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| 228 | SX7 = [S7 COR QT]; |
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| 229 | SX8 = [S8 COR QT]; |
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| 230 | SX9 = [S9 COR QT]; |
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| 231 | SX10 = [S10 COR QT]; |
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| 232 | SX11 = [S11 COR QT]; |
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| 233 | |
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| 234 | %% DIPOLES |
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| 235 | %BEND = rbend('BEND' , 1.05243, ... |
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| 236 | % 0.19635, 0.098175, 0.098175, 0.0,'BendLinearPass'); |
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| 237 | |
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| 238 | %% DIPOLES |
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| 239 | % {** 1.3815 factor to fit with BETA ??? strange **} |
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| 240 | %theta = 2*pi/32; |
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| 241 | %fullgap = 0.105*0.724*2/6*1.3815*0.; |
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| 242 | % BEND = rbend2('BEND', L, theta, theta/2, theta/2, 0.0, ... |
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| 243 | % fullgap,'BendLinearFringeTiltPass'); |
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| 244 | theta = 2*pi/32; |
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| 245 | %theta2 = theta/2; |
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| 246 | thetae = theta/2 - 0.6e-3*1; |
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| 247 | thetas = theta/2 + 0.9e-3*1; |
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| 248 | K = 0.00204*1; |
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| 249 | fullgap = 0.037*0.724*2*1; |
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| 250 | BEND = rbend2('BEND', 1.05243, theta, thetae, thetas, K,fullgap,'BendLinearPass'); |
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| 251 | |
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| 252 | |
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| 253 | %% Lattice |
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| 254 | % Superperiods |
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| 255 | |
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| 256 | SUP1 = [... |
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| 257 | SD1a PtINJ SD1b K3 SD1c1 FCOR SD1c2 KEMH SD1c3 K4 SD1d ... |
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| 258 | BPM SDB1 Q1 SD2 SX1 SD3 Q2 ... |
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| 259 | SDB2 BPM SD14a Q3 SD5 SX2 SD6 ... |
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| 260 | BEND SD7 Q4 SD8 SX3 ... |
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| 261 | SDB3 BPM SD9a Q5 SD12 SX4 ... |
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| 262 | SDB4 BPM SD10a Q5 SD91 ... |
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| 263 | BPM SDB5 SX3 SD8 Q4 SD7 BEND ... |
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| 264 | SD7 Q6 SD5 SX5 SD41 ... |
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| 265 | BPM SDB6 Q7 SD3 SX6 SD2 Q8 ... |
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| 266 | SDC1 FCOR SDC2 BPM SD13a SD13a BPM ... |
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| 267 | SDC3 FCOR SDC1 ... |
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| 268 | Q8 SD2 SX8 SD3 Q7 SDB7 ... |
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| 269 | BPM SD42 SX7 SD5 Q6 SD7 ... |
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| 270 | BEND SD7 Q9 SD8 SX9 SDB8 ... |
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| 271 | BPM SD9a Q10 SD8 SX10 SDC4 ... |
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| 272 | FCOR SDC5 BPM SDAC1 SDAC1 ... |
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| 273 | BPM SDC6 FCOR SDC7 SX10 SD8 Q10 SD91 ... |
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| 274 | BPM SD42 SX9 SD8 Q9 SD7 ... |
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| 275 | BEND SD7 Q6 SD5 SX7 SD41 ... |
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| 276 | BPM SDB9 Q7 SD3 SX8 SD2 Q8 SDC8 ... |
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| 277 | FCOR SDC9 BPM SD13a SD13a ... |
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| 278 | BPM SDC10 FCOR SDC11 Q8 SD2 SX8 SD3 Q7 ... |
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| 279 | SDB10 BPM SD42 SX7 SD5 Q6 SD7 ... |
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| 280 | BEND SD7 Q9 SD8 SX9 SDB11 ... |
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| 281 | BPM SD92 Q10 SD8 SX10 SDC12 ... |
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| 282 | FCOR SDC13 BPM SDAC1 SDAC1 ... |
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| 283 | BPM SDC14 FCOR SDC15 SX10 SD8 Q10 SD93 ... |
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| 284 | BPM SDB12 SX9 SD8 Q9 SD7 ... |
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| 285 | BEND SD7 Q6 SD5 SX7 SD41 ... |
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| 286 | BPM SDB13 Q7 SD3 SX8 SD2 Q8 SDC16 ... |
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| 287 | FCOR SDC17 BPM SD13a SD13a ... |
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| 288 | BPM SDC18 FCOR SDC19 Q8 SD2 SX6 SD3 Q7 ... |
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| 289 | SDB14 BPM SD43 SX5 SD5 Q6 SD7 ... |
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| 290 | BEND SD7 Q4 SD8 SX3 SDB15 ... |
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| 291 | BPM SD9a Q5 SD12 ... |
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| 292 | SX4 SDB4 BPM SD10a Q5 SD93 ... |
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| 293 | BPM SDB17 SX3 SD8 Q4 SD7 ... |
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| 294 | BEND SD6 SX2 SD5 Q3 SD141 ... |
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| 295 | BPM SDB18 Q2 SD3 SX1 SD2 Q1 ... |
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| 296 | SDC20 FCOR SDC21 BPM HU640upstream ]; |
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| 297 | |
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| 298 | SUP2 = [ ... |
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| 299 | HU640downstream BPM SDC2 FCOR SDC1 ... |
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| 300 | Q1 SD2 SX1 SD3 Q2 ... |
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| 301 | SDB7 BPM SD14a Q3 SD5 SX2 SD6 ... |
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| 302 | BEND SD7 Q4 SD8 SX3 ... |
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| 303 | SDB3 BPM SD9a Q5 SD12 SX4 ... |
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| 304 | SDB4 BPM SD10a Q5 SD93 ... |
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| 305 | BPM SDB5 SX3 SD8 Q4 SD7 BEND ... |
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| 306 | SD7 Q6 SD5 SX5 SD41 ... |
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| 307 | BPM SDB6 Q7 SD3 SX6 SD2 Q8 ... |
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| 308 | SDC1 FCOR SDC2 BPM SD13a SD13a BPM ... |
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| 309 | SDC2 FCOR SDC1 ... |
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| 310 | Q8 SD2 SX8 SD3 Q7 SDB7 ... |
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| 311 | BPM SDB5 SX7 SD5 Q6 SD7 ... |
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| 312 | BEND SD7 Q9 SD8 SX9 SDB3 ... |
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| 313 | BPM SD9a Q10 SD8 SX10 SDC4 ... |
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| 314 | FCOR SDC5 BPM SDAC1 SDAC1 ... |
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| 315 | BPM SDC14 FCOR SDC15 SX10 SD8 Q10 SD93 ... |
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| 316 | BPM SDB12 SX9 SD8 Q9 SD7 ... |
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| 317 | BEND SD7 Q6 SD5 SX7 SD41 ... |
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| 318 | BPM SDB6 Q7 SD3 SX8 SD2 Q8 SDC1 ... |
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| 319 | FCOR SDC2 BPM SD13a SD13a ... |
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| 320 | BPM SDC2 FCOR SDC1 Q8 SD2 SX8 SD3 Q7 ... |
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| 321 | SDB7 BPM SDB5 SX7 SD5 Q6 SD7 ... |
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| 322 | BEND SD7 Q9 SD8 SX9 SDB3 ... |
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| 323 | BPM SD9a Q10 SD8 SX10 SDC4 ... |
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| 324 | FCOR SDC5 BPM SDAC1 SDAC1 ... |
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| 325 | BPM SDC14 FCOR SDC15 SX10 SD8 Q10 SD93 ... |
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| 326 | BPM SDB12 SX9 SD8 Q9 SD7 ... |
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| 327 | BEND SD7 Q6 SD5 SX7 SD41 ... |
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| 328 | BPM SDB6 Q7 SD3 SX8 SD2 Q8 SDC1 ... |
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| 329 | FCOR SDC2 BPM SD13a SD13a ... |
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| 330 | BPM SDC2 FCOR SDC1 Q8 SD2 SX6 SD3 Q7 ... |
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| 331 | SDB7 BPM SD42 SX5 SD5 Q6 SD7 ... |
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| 332 | BEND SD7 Q4 SD8 SX3 SDB3 ... |
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| 333 | BPM SD9a Q5 SD12 ... |
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| 334 | SX4 SDB4 BPM SD10a Q5 SD93 ... |
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| 335 | BPM SD42 SX3 SD8 Q4 SD7 ... |
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| 336 | BEND SD6 SX2 SD5 Q3 SD141 ... |
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| 337 | BPM SDB18 Q2 SD3 SX1 SD2 Q1 ... |
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| 338 | SDC1 FCOR SDC2 BPM SD1e ]; |
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| 339 | |
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| 340 | SUP3 = [ ... |
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| 341 | SD1e BPM SDC2 FCOR SDC1 ... |
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| 342 | Q1 SD2 SX1 SD3 Q2 ... |
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| 343 | SDB7 BPM SD14a Q3 SD5 SX2 SD6 ... |
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| 344 | BEND SD7 Q4 SD8 SX3 ... |
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| 345 | SDB3 BPM SD9a Q5 SD12 SX4 ... |
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| 346 | SDB4 BPM SD10a Q5 SD93 ... |
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| 347 | BPM SDB5 SX3 SD8 Q4 SD7 BEND ... |
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| 348 | SD7 Q6 SD5 SX5 SD41 ... |
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| 349 | BPM SDB6 Q7 SD3 SX6 SD2 Q8 ... |
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| 350 | SDC1 FCOR SDC2 BPM SD13a SD13a BPM ... |
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| 351 | SDC2 FCOR SDC1 ... |
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| 352 | Q8 SD2 SX8 SD3 Q7 SDB7 ... |
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| 353 | BPM SDB5 SX7 SD5 Q6 SD7 ... |
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| 354 | BEND SD7 Q9 SD8 SX9 SDB3 ... |
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| 355 | BPM SD9a Q10 SD8 SX10 SDC4 ... |
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| 356 | FCOR SDC5 BPM SDAC1 SDAC1 ... |
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| 357 | BPM SDC14 FCOR SDC15 SX10 SD8 Q10 SD93 ... |
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| 358 | BPM SDB12 SX9 SD8 Q9 SD7 ... |
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| 359 | BEND SD7 Q6 SD5 SX7 SD41 ... |
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| 360 | BPM SDB6 Q7 SD3 SX8 SD2 Q8 SDC1 ... |
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| 361 | FCOR SDC2 BPM SDPX2a PX2C SDPX2b PX2C SDPX2b PX2C SDPX2c ... |
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| 362 | BPM SDC2 FCOR SDC1 Q8 SD2 SX8 SD3 Q7 ... |
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| 363 | SDB7 BPM SDB5 SX7 SD5 Q6 SD7 ... |
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| 364 | BEND SD7 Q9 SD8 SX9 SDB3 ... |
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| 365 | BPM SD9a Q10 SD8 SX10 SDC4 ... |
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| 366 | FCOR SDC5 BPM SDAC1 SDAC1 ... |
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| 367 | BPM SDC14 FCOR SDC15 SX10 SD8 Q10 SD93 ... |
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| 368 | BPM SDB12 SX9 SD8 Q9 SD7 ... |
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| 369 | BEND SD7 Q6 SD5 SX7 SD41 ... |
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| 370 | BPM SDB6 Q7 SD3 SX8 SD2 Q8 SDC1 ... |
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| 371 | FCOR SDC2 BPM SD13a SD13a ... |
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| 372 | BPM SDC2 FCOR SDC1 Q8 SD2 SX6 SD3 Q7 ... |
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| 373 | SDB7 BPM SD42 SX5 SD5 Q6 SD7 ... |
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| 374 | BEND SD7 Q4 SD8 SX3 SDB3 ... |
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| 375 | BPM SD9a Q5 SD12 ... |
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| 376 | SX4 SDB4 BPM SD10a Q5 SD93 ... |
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| 377 | BPM SD42 SX3 SD8 Q4 SD7 ... |
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| 378 | BEND SD6 SX2 SD5 Q3 SD141 ... |
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| 379 | BPM SDB18 Q2 SD3 SX11 SD2 Q1 ... |
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| 380 | SDC1 FCOR SDC2 BPM SDNSC1 Q11 SDNSC2 Q12]; |
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| 381 | % SDC1 FCOR SDC2 BPM SD1e ]; |
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| 382 | |
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| 383 | %SUP4 = [ ... |
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| 384 | % SD1e BPM SDC2 FCOR SDC1 ... |
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| 385 | SUP4 = [ ... |
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| 386 | SDNSC2 Q11 SDNSC1 BPM SDC2 FCOR SDC1 ... |
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| 387 | Q1 SD2 SX11 SD3 Q2 ... |
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| 388 | SDB7 BPM SD14a Q3 SD5 SX2 SD6 ... |
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| 389 | BEND SD7 Q4 SD8 SX3 ... |
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| 390 | SDB3 BPM SD9a Q5 SD12 SX4 ... |
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| 391 | SDB4 BPM SD10a Q5 SD93 ... |
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| 392 | BPM SDB5 SX3 SD8 Q4 SD7 BEND ... |
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| 393 | SD7 Q6 SD5 SX5 SD41 ... |
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| 394 | BPM SDB6 Q7 SD3 SX6 SD2 Q8 ... |
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| 395 | SDC1 FCOR SDC2 BPM SD13a SD13a BPM ... |
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| 396 | SDC2 FCOR SDC1 ... |
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| 397 | Q8 SD2 SX8 SD3 Q7 SDB7 ... |
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| 398 | BPM SDB5 SX7 SD5 Q6 SD7 ... |
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| 399 | BEND SD7 Q9 SD8 SX9 SDB3 ... |
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| 400 | BPM SD9a Q10 SD8 SX10 SDC4 ... |
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| 401 | FCOR SDC5 BPM SDAC1 SDAC1 ... |
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| 402 | BPM SDC14 FCOR SDC15 SX10 SD8 Q10 SD93 ... |
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| 403 | BPM SDB12 SX9 SD8 Q9 SD7 ... |
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| 404 | BEND SD7 Q6 SD5 SX7 SD41 ... |
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| 405 | BPM SDB6 Q7 SD3 SX8 SD2 Q8 SDC1 ... |
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| 406 | FCOR SDC2 BPM SD13a SD13a ... |
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| 407 | BPM SDC2 FCOR SDC1 Q8 SD2 SX8 SD3 Q7 ... |
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| 408 | SDB7 BPM SDB5 SX7 SD5 Q6 SD7 ... |
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| 409 | BEND SD7 Q9 SD8 SX9 SDB3 ... |
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| 410 | BPM SD9a Q10 SD8 SX10 SDC4 ... |
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| 411 | FCOR SDC5 BPM SDAC1 SDAC1 ... |
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| 412 | BPM SDC14 FCOR SDC15 SX10 SD8 Q10 SD93 ... |
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| 413 | BPM SDB12 SX9 SD8 Q9 SD7 ... |
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| 414 | BEND SD7 Q6 SD5 SX7 SD41 ... |
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| 415 | BPM SDB6 Q7 SD3 SX8 SD2 Q8 SDC1 ... |
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| 416 | FCOR SDC2 BPM SD13a SD13a ... |
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| 417 | BPM SDC2 FCOR SDC1 Q8 SD2 SX6 SD3 Q7 ... |
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| 418 | SDB7 BPM SD42 SX5 SD5 Q6 SD7 ... |
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| 419 | BEND SD7 Q4 SD8 SX3 SDB3 ... |
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| 420 | BPM SD9a Q5 SD12 ... |
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| 421 | SX4 SDB4 BPM SD10a Q5 SD93 ... |
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| 422 | BPM SD42 SX3 SD8 Q4 SD7 ... |
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| 423 | BEND SD6 SX2 SD5 Q3 SD141 ... |
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| 424 | BPM SDB18 Q2 SD3 SX1 SD2 Q1 ... |
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| 425 | SDC22 BPM SDC23e FCOR SDC23f K1 SDC23b ... |
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| 426 | KEMV SDC23c K2 SDC23d SDC24]; |
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| 427 | |
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| 428 | |
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| 429 | ELIST = [DEBUT INJ SECT1 SUP1 SECT2 SUP2 SECT3 SUP3 SECT4 SUP4 CAV FIN]; |
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| 430 | %ELIST = [DEBUT INJ SECT1 SUP1 SECT2 SUP2 SECT3 SUP3 SECT4 SUP4 FIN]; |
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| 431 | |
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| 432 | buildlat(ELIST); |
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| 433 | |
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| 434 | % Set all magnets to same energy |
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| 435 | THERING = setcellstruct(THERING,'Energy',1:length(THERING),GLOBVAL.E0); |
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| 436 | |
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| 437 | ATIndexList = atindex; |
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| 438 | % set PX2 chicane |
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| 439 | THERING{ATIndexList.PX2C(1)}.KickAngle(1) = -2.25e-3; % rad |
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| 440 | THERING{ATIndexList.PX2C(2)}.KickAngle(1) = 2*2.25e-3; % rad |
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| 441 | THERING{ATIndexList.PX2C(3)}.KickAngle(1) = -2.25e-3; % rad |
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| 442 | |
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| 443 | evalin('caller','global THERING FAMLIST GLOBVAL'); |
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| 444 | |
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| 445 | % set nanoscopium triplets upstream and downstream of SDL13 |
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| 446 | THERING = setNanoscopium(THERING,ATIndexList); |
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| 447 | |
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| 448 | atsummary; |
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| 449 | |
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| 450 | if nargout |
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| 451 | varargout{1} = THERING; |
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| 452 | end |
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| 453 | |
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| 454 | function THERING= setNanoscopium(THERING,ATIndexList) |
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| 455 | |
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| 456 | QP1N = -0.1269903E+01; |
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| 457 | QP2N = 0.1859323E+01; |
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| 458 | QP3N = -0.1143006E+01; |
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| 459 | THERING = setquad(THERING, ATIndexList.Q1(6), QP1N); |
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| 460 | THERING = setquad(THERING, ATIndexList.Q1(7), QP1N); |
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| 461 | THERING = setquad(THERING, ATIndexList.Q2(6), QP2N); |
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| 462 | THERING = setquad(THERING, ATIndexList.Q2(7), QP2N); |
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| 463 | THERING = setquad(THERING, ATIndexList.Q3(6), QP3N); |
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| 464 | THERING = setquad(THERING, ATIndexList.Q3(7), QP3N); |
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| 465 | |
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| 466 | function THERING = setquad(THERING, Idx, K) |
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| 467 | |
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| 468 | THERING{Idx}.K = K; |
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| 469 | THERING{Idx}.PolynomB(2) = K; |
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| 470 | fprintf('%s %03d %+f %+f\n', THERING{Idx}.FamName, Idx, THERING{Idx}.K, THERING{Idx}.PolynomB(2)); |
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| 471 | |
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