!========================================================================================================
!              LTE FILE FOR LINAC INJECTOR OF HBSRS (HIGH BRIGHTNESS MODE)
!========================================================================================================
% 2.998500e+09 sto f0
% 90.0 sto ph_ci
% 90.0 sto ph_cg

!========================================================================================================
!     SOLENOID (1)
!------------------------------------------------------------------------------------------------------------
sdr_a_001: DRIFT, L=0.032922
sdr_a_002: DRIFT, L=0.032922
sdr_a_003: DRIFT, L=0.032922

!========================================================================================================
!     SHPB_CAVITY (2)
!------------------------------------------------------------------------------------------------------------
pb_b_001: TWLA, L=0.034780, FREQUENCY=499.75e06, PHASE=0.000000, EZ=5.750431e+05, FOCUSSING=1, B_SOLENOID=0.029094, METHOD = "non-adaptive runge-kutta", N_STEPS=20

!========================================================================================================
!     SOLENOID (3)
!------------------------------------------------------------------------------------------------------------
sdr_c_001: DRIFT, L=0.032922
sdr_c_002: DRIFT, L=0.032922
sdr_c_003: DRIFT, L=0.032922

!========================================================================================================
!     SOLENOID (4)
!------------------------------------------------------------------------------------------------------------
sdr_d_001: DRIFT, L=0.058000
sdr_d_002: DRIFT, L=0.058000
sdr_d_003: DRIFT, L=0.058000
sdr_d_004: DRIFT, L=0.058000
sdr_d_005: DRIFT, L=0.058000
sdr_d_006: DRIFT, L=0.058000
sdr_d_007: DRIFT, L=0.058000
sdr_d_008: DRIFT, L=0.058000
sdr_d_009: DRIFT, L=0.058000
sdr_d_010: DRIFT, L=0.058000

!========================================================================================================
!     TW_CI_BNCHR (5)
!------------------------------------------------------------------------------------------------------------
bnh_e_001: TWLA, L=0.018330, FREQUENCY="f0", PHASE=0.000074, EZ=9.630119e+06, FOCUSSING=1, B_SOLENOID=0.057750, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_e_002: TWLA, L=0.018330, FREQUENCY="f0", PHASE=-2.187932, EZ=9.577279e+06, FOCUSSING=1, B_SOLENOID=0.061871, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_e_003: TWLA, L=0.021662, FREQUENCY="f0", PHASE=2.001023, EZ=1.078877e+07, FOCUSSING=1, B_SOLENOID=0.070515, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_e_004: TWLA, L=0.024995, FREQUENCY="f0", PHASE=-0.093554, EZ=1.165088e+07, FOCUSSING=1, B_SOLENOID=0.082997, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_e_005: TWLA, L=0.026662, FREQUENCY="f0", PHASE=-2.187790, EZ=1.209524e+07, FOCUSSING=1, B_SOLENOID=0.089806, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_e_006: TWLA, L=0.028328, FREQUENCY="f0", PHASE=2.001336, EZ=1.243502e+07, FOCUSSING=1, B_SOLENOID=0.096593, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_e_007: TWLA, L=0.029994, FREQUENCY="f0", PHASE=-0.093949, EZ=1.267857e+07, FOCUSSING=1, B_SOLENOID=0.099309, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_e_008: TWLA, L=0.029994, FREQUENCY="f0", PHASE=-2.145991, EZ=1.260989e+07, FOCUSSING=1, B_SOLENOID=0.098250, METHOD = "non-adaptive runge-kutta", N_STEPS=20

!========================================================================================================
!     TW_CI_ACCEL (6)
!------------------------------------------------------------------------------------------------------------
bnh_f_001: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.336565e+07, FOCUSSING=1, B_SOLENOID=0.093696, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_002: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.328255e+07, FOCUSSING=1, B_SOLENOID=0.085485, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_003: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.319945e+07, FOCUSSING=1, B_SOLENOID=0.081771, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_004: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.310249e+07, FOCUSSING=1, B_SOLENOID=0.082404, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_005: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.301939e+07, FOCUSSING=1, B_SOLENOID=0.088985, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_006: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.293629e+07, FOCUSSING=1, B_SOLENOID=0.094713, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_007: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.283934e+07, FOCUSSING=1, B_SOLENOID=0.097865, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_008: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.275623e+07, FOCUSSING=1, B_SOLENOID=0.096246, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_009: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.267313e+07, FOCUSSING=1, B_SOLENOID=0.090376, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_010: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.259003e+07, FOCUSSING=1, B_SOLENOID=0.080231, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_011: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.250693e+07, FOCUSSING=1, B_SOLENOID=0.062346, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_012: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.242382e+07, FOCUSSING=1, B_SOLENOID=0.049009, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_013: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.234072e+07, FOCUSSING=1, B_SOLENOID=0.037801, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_014: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.225762e+07, FOCUSSING=1, B_SOLENOID=0.026848, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_015: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.217452e+07, FOCUSSING=1, B_SOLENOID=0.021194, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_016: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.209141e+07, FOCUSSING=1, B_SOLENOID=0.017181, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_017: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.200831e+07, FOCUSSING=1, B_SOLENOID=0.014382, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_018: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.192521e+07, FOCUSSING=1, B_SOLENOID=0.012022, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_019: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.184211e+07, FOCUSSING=1, B_SOLENOID=0.011029, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_020: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.175900e+07, FOCUSSING=1, B_SOLENOID=0.010581, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_021: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.168975e+07, FOCUSSING=1, B_SOLENOID=0.010767, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_022: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.160665e+07, FOCUSSING=1, B_SOLENOID=0.011522, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_023: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.152355e+07, FOCUSSING=1, B_SOLENOID=0.012901, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_024: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.145429e+07, FOCUSSING=1, B_SOLENOID=0.016003, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_025: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.137119e+07, FOCUSSING=1, B_SOLENOID=0.019623, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_026: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.130194e+07, FOCUSSING=1, B_SOLENOID=0.024763, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_027: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.121884e+07, FOCUSSING=1, B_SOLENOID=0.034676, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_028: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.114958e+07, FOCUSSING=1, B_SOLENOID=0.044601, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_029: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.106648e+07, FOCUSSING=1, B_SOLENOID=0.055945, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_030: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.099723e+07, FOCUSSING=1, B_SOLENOID=0.070037, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_031: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.091413e+07, FOCUSSING=1, B_SOLENOID=0.077238, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_032: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.084488e+07, FOCUSSING=1, B_SOLENOID=0.080877, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_033: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.077562e+07, FOCUSSING=1, B_SOLENOID=0.080676, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_034: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.069252e+07, FOCUSSING=1, B_SOLENOID=0.077037, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_035: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.062327e+07, FOCUSSING=1, B_SOLENOID=0.071923, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_036: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.055402e+07, FOCUSSING=1, B_SOLENOID=0.067332, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_037: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.048476e+07, FOCUSSING=1, B_SOLENOID=0.067918, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_038: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.041551e+07, FOCUSSING=1, B_SOLENOID=0.071769, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_039: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.033241e+07, FOCUSSING=1, B_SOLENOID=0.078239, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_040: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.026316e+07, FOCUSSING=1, B_SOLENOID=0.080868, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_041: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.019391e+07, FOCUSSING=1, B_SOLENOID=0.080376, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_042: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.012465e+07, FOCUSSING=1, B_SOLENOID=0.074575, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_043: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=1.005540e+07, FOCUSSING=1, B_SOLENOID=0.066075, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_044: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=9.986150e+06, FOCUSSING=1, B_SOLENOID=0.054986, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_045: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=9.916898e+06, FOCUSSING=1, B_SOLENOID=0.039882, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_046: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=9.861496e+06, FOCUSSING=1, B_SOLENOID=0.030432, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_047: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=9.792244e+06, FOCUSSING=1, B_SOLENOID=0.023115, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_048: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=9.722992e+06, FOCUSSING=1, B_SOLENOID=0.016223, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_049: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=9.653740e+06, FOCUSSING=1, B_SOLENOID=0.012653, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_050: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=9.584488e+06, FOCUSSING=1, B_SOLENOID=0.010041, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_051: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=9.529086e+06, FOCUSSING=1, B_SOLENOID=0.007585, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_052: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=9.459834e+06, FOCUSSING=1, B_SOLENOID=0.006275, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_053: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=9.390582e+06, FOCUSSING=1, B_SOLENOID=0.005282, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_054: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=9.335180e+06, FOCUSSING=1, B_SOLENOID=0.004311, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_055: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=9.265928e+06, FOCUSSING=1, B_SOLENOID=0.003776, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_056: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=9.196676e+06, FOCUSSING=1, B_SOLENOID=0.003365, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_057: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=9.141274e+06, FOCUSSING=1, B_SOLENOID=0.002966, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_058: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=9.072022e+06, FOCUSSING=1, B_SOLENOID=0.002756, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_059: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=9.016620e+06, FOCUSSING=1, B_SOLENOID=0.002612, METHOD = "non-adaptive runge-kutta", N_STEPS=20
bnh_f_060: TWLA, L=0.033294, FREQUENCY="f0", PHASE=1.570796, EZ=8.947368e+06, FOCUSSING=1, B_SOLENOID=0.002510, METHOD = "non-adaptive runge-kutta", N_STEPS=20

!========================================================================================================
!     SOLENOID (7)
!------------------------------------------------------------------------------------------------------------
sdr_g_001: DRIFT, L=0.075000
sdr_g_002: DRIFT, L=0.075000
sdr_g_003: DRIFT, L=0.075000
sdr_g_004: DRIFT, L=0.075000
sdr_g_005: DRIFT, L=0.075000
sdr_g_006: DRIFT, L=0.075000
sdr_g_007: DRIFT, L=0.075000
sdr_g_008: DRIFT, L=0.075000
sdr_g_009: DRIFT, L=0.075000
sdr_g_010: DRIFT, L=0.075000
sdr_g_011: DRIFT, L=0.075000
sdr_g_012: DRIFT, L=0.075000
sdr_g_013: DRIFT, L=0.075000
sdr_g_014: DRIFT, L=0.075000
sdr_g_015: DRIFT, L=0.075000
sdr_g_016: DRIFT, L=0.075000
sdr_g_017: DRIFT, L=0.075000
sdr_g_018: DRIFT, L=0.075000
sdr_g_019: DRIFT, L=0.075000
sdr_g_020: DRIFT, L=0.075000

!========================================================================================================
!     TW_CG_ACCEL (8)
!------------------------------------------------------------------------------------------------------------
cel_h_001: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.778371e+07, FOCUSSING=1, B_SOLENOID=0.007915, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_002: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.778637e+07, FOCUSSING=1, B_SOLENOID=0.009831, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_003: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.778880e+07, FOCUSSING=1, B_SOLENOID=0.013492, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_004: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.779170e+07, FOCUSSING=1, B_SOLENOID=0.017443, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_005: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.779413e+07, FOCUSSING=1, B_SOLENOID=0.022855, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_006: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.779679e+07, FOCUSSING=1, B_SOLENOID=0.033062, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_007: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.779946e+07, FOCUSSING=1, B_SOLENOID=0.043166, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_008: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.780237e+07, FOCUSSING=1, B_SOLENOID=0.054661, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_009: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.780529e+07, FOCUSSING=1, B_SOLENOID=0.068921, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_010: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.780796e+07, FOCUSSING=1, B_SOLENOID=0.076227, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_011: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.781063e+07, FOCUSSING=1, B_SOLENOID=0.079956, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_012: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.781354e+07, FOCUSSING=1, B_SOLENOID=0.079857, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_013: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.781622e+07, FOCUSSING=1, B_SOLENOID=0.076281, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_014: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.781913e+07, FOCUSSING=1, B_SOLENOID=0.071221, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_015: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.782205e+07, FOCUSSING=1, B_SOLENOID=0.066692, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_016: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.782497e+07, FOCUSSING=1, B_SOLENOID=0.067317, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_017: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.782813e+07, FOCUSSING=1, B_SOLENOID=0.071202, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_018: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.783106e+07, FOCUSSING=1, B_SOLENOID=0.077709, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_019: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.783422e+07, FOCUSSING=1, B_SOLENOID=0.080361, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_020: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.783739e+07, FOCUSSING=1, B_SOLENOID=0.079889, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_021: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.784056e+07, FOCUSSING=1, B_SOLENOID=0.076145, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_022: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.784372e+07, FOCUSSING=1, B_SOLENOID=0.065620, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_023: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.784689e+07, FOCUSSING=1, B_SOLENOID=0.054540, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_024: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.785031e+07, FOCUSSING=1, B_SOLENOID=0.043028, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_025: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.785373e+07, FOCUSSING=1, B_SOLENOID=0.029993, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_026: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.785690e+07, FOCUSSING=1, B_SOLENOID=0.022674, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_027: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.786032e+07, FOCUSSING=1, B_SOLENOID=0.017239, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_028: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.786398e+07, FOCUSSING=1, B_SOLENOID=0.012194, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_029: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.786740e+07, FOCUSSING=1, B_SOLENOID=0.009568, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_030: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.787083e+07, FOCUSSING=1, B_SOLENOID=0.007622, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_031: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.787450e+07, FOCUSSING=1, B_SOLENOID=0.005755, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_032: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.787694e+07, FOCUSSING=1, B_SOLENOID=0.004734, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_033: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.787939e+07, FOCUSSING=1, B_SOLENOID=0.003941, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_034: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.788184e+07, FOCUSSING=1, B_SOLENOID=0.003137, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_035: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.788453e+07, FOCUSSING=1, B_SOLENOID=0.002674, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_036: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.788698e+07, FOCUSSING=1, B_SOLENOID=0.002299, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_037: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.789041e+07, FOCUSSING=1, B_SOLENOID=0.001902, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_038: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.789360e+07, FOCUSSING=1, B_SOLENOID=0.001663, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_039: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.789679e+07, FOCUSSING=1, B_SOLENOID=0.001464, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_040: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.790022e+07, FOCUSSING=1, B_SOLENOID=0.001246, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_041: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.790365e+07, FOCUSSING=1, B_SOLENOID=0.001111, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_042: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.790635e+07, FOCUSSING=1, B_SOLENOID=0.000995, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_043: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.790930e+07, FOCUSSING=1, B_SOLENOID=0.000865, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_044: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.791225e+07, FOCUSSING=1, B_SOLENOID=0.000782, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_045: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.791495e+07, FOCUSSING=1, B_SOLENOID=0.000710, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_046: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.791790e+07, FOCUSSING=1, B_SOLENOID=0.000627, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_047: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.792159e+07, FOCUSSING=1, B_SOLENOID=0.000574, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_048: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.792503e+07, FOCUSSING=1, B_SOLENOID=0.000527, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_049: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.792897e+07, FOCUSSING=1, B_SOLENOID=0.000472, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_050: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.793266e+07, FOCUSSING=1, B_SOLENOID=0.000435, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_051: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.793611e+07, FOCUSSING=1, B_SOLENOID=0.000403, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_052: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.793956e+07, FOCUSSING=1, B_SOLENOID=0.000365, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_053: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.794301e+07, FOCUSSING=1, B_SOLENOID=0.000339, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_054: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.794622e+07, FOCUSSING=1, B_SOLENOID=0.000316, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_055: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.794967e+07, FOCUSSING=1, B_SOLENOID=0.000289, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_056: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.795288e+07, FOCUSSING=1, B_SOLENOID=0.000270, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_057: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.795658e+07, FOCUSSING=1, B_SOLENOID=0.000254, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_058: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.796004e+07, FOCUSSING=1, B_SOLENOID=0.000238, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_059: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.796374e+07, FOCUSSING=1, B_SOLENOID=0.000220, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_060: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.796745e+07, FOCUSSING=1, B_SOLENOID=0.000207, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_061: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.797116e+07, FOCUSSING=1, B_SOLENOID=0.000195, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_062: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.797512e+07, FOCUSSING=1, B_SOLENOID=0.000181, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_063: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.797883e+07, FOCUSSING=1, B_SOLENOID=0.000172, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_064: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.798279e+07, FOCUSSING=1, B_SOLENOID=0.000163, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_065: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.798675e+07, FOCUSSING=1, B_SOLENOID=0.000152, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_066: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.799072e+07, FOCUSSING=1, B_SOLENOID=0.000144, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_067: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.799493e+07, FOCUSSING=1, B_SOLENOID=0.000137, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_068: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.799939e+07, FOCUSSING=1, B_SOLENOID=0.000129, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_069: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.800361e+07, FOCUSSING=1, B_SOLENOID=0.000123, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_070: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.800808e+07, FOCUSSING=1, B_SOLENOID=0.000117, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_071: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.801205e+07, FOCUSSING=1, B_SOLENOID=0.000110, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_072: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.801578e+07, FOCUSSING=1, B_SOLENOID=0.000105, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_073: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.801951e+07, FOCUSSING=1, B_SOLENOID=0.000101, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_074: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.802324e+07, FOCUSSING=1, B_SOLENOID=0.000095, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_075: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.802722e+07, FOCUSSING=1, B_SOLENOID=0.000091, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_076: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.803095e+07, FOCUSSING=1, B_SOLENOID=0.000087, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_077: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.803519e+07, FOCUSSING=1, B_SOLENOID=0.000083, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_078: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.803892e+07, FOCUSSING=1, B_SOLENOID=0.000080, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_079: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.804316e+07, FOCUSSING=1, B_SOLENOID=0.000077, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_080: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.804715e+07, FOCUSSING=1, B_SOLENOID=0.000073, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_081: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.805114e+07, FOCUSSING=1, B_SOLENOID=0.000070, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_082: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.805563e+07, FOCUSSING=1, B_SOLENOID=0.000068, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_083: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.806013e+07, FOCUSSING=1, B_SOLENOID=0.000064, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_084: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.806462e+07, FOCUSSING=1, B_SOLENOID=0.000062, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_085: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.806912e+07, FOCUSSING=1, B_SOLENOID=0.000060, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_086: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.807362e+07, FOCUSSING=1, B_SOLENOID=0.000057, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_087: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.807838e+07, FOCUSSING=1, B_SOLENOID=0.000055, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_088: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.808288e+07, FOCUSSING=1, B_SOLENOID=0.000053, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_089: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.808789e+07, FOCUSSING=1, B_SOLENOID=0.000051, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_090: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.809265e+07, FOCUSSING=1, B_SOLENOID=0.000050, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_091: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.809742e+07, FOCUSSING=1, B_SOLENOID=0.000048, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_092: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.810193e+07, FOCUSSING=1, B_SOLENOID=0.000046, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_093: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.810645e+07, FOCUSSING=1, B_SOLENOID=0.000045, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_094: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.811072e+07, FOCUSSING=1, B_SOLENOID=0.000043, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_095: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.811499e+07, FOCUSSING=1, B_SOLENOID=0.000042, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_096: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.811951e+07, FOCUSSING=1, B_SOLENOID=0.000040, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_097: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.812404e+07, FOCUSSING=1, B_SOLENOID=0.000039, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_098: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.812907e+07, FOCUSSING=1, B_SOLENOID=0.000038, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_099: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.813385e+07, FOCUSSING=1, B_SOLENOID=0.000037, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_100: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.813889e+07, FOCUSSING=1, B_SOLENOID=0.000036, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_101: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.814393e+07, FOCUSSING=1, B_SOLENOID=0.000035, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_102: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.814922e+07, FOCUSSING=1, B_SOLENOID=0.000033, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_103: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.815452e+07, FOCUSSING=1, B_SOLENOID=0.000032, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_104: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.815982e+07, FOCUSSING=1, B_SOLENOID=0.000032, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_105: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.816538e+07, FOCUSSING=1, B_SOLENOID=0.000031, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_106: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.817094e+07, FOCUSSING=1, B_SOLENOID=0.000030, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_107: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.817676e+07, FOCUSSING=1, B_SOLENOID=0.000029, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_108: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.818258e+07, FOCUSSING=1, B_SOLENOID=0.000028, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_109: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.818739e+07, FOCUSSING=1, B_SOLENOID=0.000027, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_110: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.819220e+07, FOCUSSING=1, B_SOLENOID=0.000027, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_111: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.819702e+07, FOCUSSING=1, B_SOLENOID=0.000026, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_112: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.820209e+07, FOCUSSING=1, B_SOLENOID=0.000025, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_113: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.820742e+07, FOCUSSING=1, B_SOLENOID=0.000025, METHOD = "non-adaptive runge-kutta", N_STEPS=20
cel_h_114: TWLA, L=0.033246, FREQUENCY="f0", PHASE=1.570796, EZ=1.821275e+07, FOCUSSING=1, B_SOLENOID=0.000024, METHOD = "non-adaptive runge-kutta", N_STEPS=20

!========================================================================================================
!========================================================================================================
!                   LINES FROM ELEMENTS
!========================================================================================================

ln_a:LINE=( sdr_a_001, sdr_a_002, sdr_a_003 )

ln_b:LINE=( pb_b_001 )

ln_c:LINE=( sdr_c_001, sdr_c_002, sdr_c_003 )

ln_d:LINE=( sdr_d_001, sdr_d_002, sdr_d_003, sdr_d_004, sdr_d_005, sdr_d_006, sdr_d_007, sdr_d_008, sdr_d_009,   &
        sdr_d_010 )

ln_e:LINE=( bnh_e_001, bnh_e_002, bnh_e_003, bnh_e_004, bnh_e_005, bnh_e_006, bnh_e_007, bnh_e_008 )

ln_f:LINE=( bnh_f_001, bnh_f_002, bnh_f_003, bnh_f_004, bnh_f_005, bnh_f_006, bnh_f_007, bnh_f_008, bnh_f_009,   &
        bnh_f_010, bnh_f_011, bnh_f_012, bnh_f_013, bnh_f_014, bnh_f_015, bnh_f_016, bnh_f_017,   &
        bnh_f_018, bnh_f_019, bnh_f_020, bnh_f_021, bnh_f_022, bnh_f_023, bnh_f_024, bnh_f_025,   &
        bnh_f_026, bnh_f_027, bnh_f_028, bnh_f_029, bnh_f_030, bnh_f_031, bnh_f_032, bnh_f_033,   &
        bnh_f_034, bnh_f_035, bnh_f_036, bnh_f_037, bnh_f_038, bnh_f_039, bnh_f_040, bnh_f_041,   &
        bnh_f_042, bnh_f_043, bnh_f_044, bnh_f_045, bnh_f_046, bnh_f_047, bnh_f_048, bnh_f_049,   &
        bnh_f_050, bnh_f_051, bnh_f_052, bnh_f_053, bnh_f_054, bnh_f_055, bnh_f_056, bnh_f_057,   &
        bnh_f_058, bnh_f_059, bnh_f_060 )

ln_g:LINE=( sdr_g_001, sdr_g_002, sdr_g_003, sdr_g_004, sdr_g_005, sdr_g_006, sdr_g_007, sdr_g_008, sdr_g_009,   &
        sdr_g_010, sdr_g_011, sdr_g_012, sdr_g_013, sdr_g_014, sdr_g_015, sdr_g_016, sdr_g_017,   &
        sdr_g_018, sdr_g_019, sdr_g_020 )

ln_h:LINE=( cel_h_001, cel_h_002, cel_h_003, cel_h_004, cel_h_005, cel_h_006, cel_h_007, cel_h_008, cel_h_009,   &
        cel_h_010, cel_h_011, cel_h_012, cel_h_013, cel_h_014, cel_h_015, cel_h_016, cel_h_017,   &
        cel_h_018, cel_h_019, cel_h_020, cel_h_021, cel_h_022, cel_h_023, cel_h_024, cel_h_025,   &
        cel_h_026, cel_h_027, cel_h_028, cel_h_029, cel_h_030, cel_h_031, cel_h_032, cel_h_033,   &
        cel_h_034, cel_h_035, cel_h_036, cel_h_037, cel_h_038, cel_h_039, cel_h_040, cel_h_041,   &
        cel_h_042, cel_h_043, cel_h_044, cel_h_045, cel_h_046, cel_h_047, cel_h_048, cel_h_049,   &
        cel_h_050, cel_h_051, cel_h_052, cel_h_053, cel_h_054, cel_h_055, cel_h_056, cel_h_057,   &
        cel_h_058, cel_h_059, cel_h_060, cel_h_061, cel_h_062, cel_h_063, cel_h_064, cel_h_065,   &
        cel_h_066, cel_h_067, cel_h_068, cel_h_069, cel_h_070, cel_h_071, cel_h_072, cel_h_073,   &
        cel_h_074, cel_h_075, cel_h_076, cel_h_077, cel_h_078, cel_h_079, cel_h_080, cel_h_081,   &
        cel_h_082, cel_h_083, cel_h_084, cel_h_085, cel_h_086, cel_h_087, cel_h_088, cel_h_089,   &
        cel_h_090, cel_h_091, cel_h_092, cel_h_093, cel_h_094, cel_h_095, cel_h_096, cel_h_097,   &
        cel_h_098, cel_h_099, cel_h_100, cel_h_101, cel_h_102, cel_h_103, cel_h_104, cel_h_105,   &
        cel_h_106, cel_h_107, cel_h_108, cel_h_109, cel_h_110, cel_h_111, cel_h_112, cel_h_113,   &
        cel_h_114 )

!========================================================================================================
!========================================================================================================
!                    COMPLETE LINAC
!========================================================================================================
accel:LINE=(ln_a, ln_b, ln_c, ln_d, ln_e, ln_f, ln_g, ln_h )