CLIC structure optimization results (all data) 28/08/07 A. Grudiev.

CLIC structure optimization results (all data)

28/08/07

A. Grudiev

New input from Daniel for d/h=0.1

f[GHz] <a>/l N[109] σz[μm] da/a Ltotal[1/m2] L1[1/m2]12 0.15 7.14326666667 57.4218 0.3 6.6519479435e+34 2.07076666667e+3412 0.14 5.98611333333 52.3476 0.3 5.88254056667e+34 1.84310833333e+3412 0.13 4.95751333333 47.3237 0.3 5.00356563833e+34 1.55205833333e+3412 0.12 4.05046666667 42.3583 0.3 4.17037438758e+34 1.32355833333e+3412 0.11 3.25791333333 37.4625 0.3 2.85240689283e+34 1.03319166667e+3412 0.1 2.57269333333 32.6508 0.3 1.69614288367e+34 7.21649166667e+3312 0.09 1.98756666667 27.9429 0.3 9.56782642358e+33 4.83810833333e+3312 0.08 1.49521333333 23.3655 0.3 4.7261814835e+33 2.81755833333e+3312 0.07 1.08818666667 18.9551 0.3 2.15212935968e+33 1.48959166667e+3312 0.15 8.18693333333 64.4657 0.15 7.84287357117e+34 2.36034166667e+3412 0.14 6.8508 58.8526 0.15 6.09377391125e+34 1.96409166667e+3412 0.13 5.66447333333 53.2914 0.15 5.13328694833e+34 1.6633e+3412 0.12 4.61969333333 47.7898 0.15 4.83117500833e+34 1.46198333333e+3412 0.11 3.70817333333 42.3586 0.15 3.83748014533e+34 1.218525e+3412 0.1 2.92149333333 37.0121 0.15 2.24265888767e+34 8.78725e+3312 0.09 2.25111333333 31.7698 0.15 1.24841274902e+34 5.83838333333e+3312 0.08 1.68839333333 26.6585 0.15 6.48176251892e+33 3.57535833333e+3312 0.07 1.22457333333 21.7156 0.15 2.90391547974e+33 1.88844166667e+3312 0.15 8.54486666667 66.7932 0.0 7.54570250633e+34 2.34008333333e+3412 0.14 7.14726666667 61.0025 0.0 6.59730424017e+34 2.03646666667e+3412 0.13 5.90671333333 55.2644 0.0 5.58408094508e+34 1.75658333333e+3412 0.12 4.81462666667 49.5866 0.0 4.60810066583e+34 1.479375e+3412 0.11 3.86225333333 43.9796 0.0 3.65970718311e+34 1.18845e+3412 0.1 3.04074 38.4575 0.0 2.43782838383e+34 9.25025e+3312 0.09 2.34111333333 33.0398 0.0 1.37716491733e+34 6.245625e+3312 0.08 1.75428 27.7533 0.0 7.19008445408e+33 3.86891666667e+33

<a>/l Type Eff Lbx*10^34 N*10^9 L/N*Eff In.Cost Es_max dT_max Pin tp tr Nb Ns (da/a; d1/h, d2/h) Nc [%] [1/m^2] [a.u.] [a.u.] [MV/m] [K] [MW] [ns] [ns] 0.0900 05 29.0 0.62 2.33 7.71 1.03 280.8 59.1 37 394.8 32.7 700 5 (0.08;0.120,0.120) 18 0.0950 05 30.6 0.76 2.66 8.78 1.04 260.6 52.3 40 391.7 34.7 700 5 (0.15;0.140,0.140) 18 0.1000 05 31.1 0.89 2.94 9.39 1.06 264.3 58.5 45 386.0 37.5 700 5 (0.27;0.140,0.140) 18 0.1050 06 30.0 1.03 3.26 9.46 1.02 296.5 59.7 54 299.9 33.2 521 5 (0.36;0.120,0.120) 20 0.1100 06 28.8 1.22 3.72 9.45 1.03 271.3 59.9 54 316.5 32.8 461 6 (0.29;0.180,0.180) 20 0.1150 08 28.0 1.33 4.13 9.05 0.99 282.3 59.4 63 262.6 33.6 343 6 (0.33;0.200,0.200) 23 0.1200 09 26.2 1.44 4.54 8.33 0.96 298.9 52.1 75 194.4 26.2 237 6 (0.36;0.180,0.180) 25 0.1250 08 25.4 1.55 5.10 7.73 0.99 284.7 59.9 73 216.9 27.5 241 7 (0.33;0.240,0.240) 23 0.1300 08 24.6 1.65 5.61 7.25 0.99 286.6 58.4 80 188.7 24.8 203 7 (0.33;0.260,0.260) 23 0.1350 09 22.2 1.79 6.12 6.50 0.98 295.5 58.0 88 169.7 23.1 154 8 (0.37;0.260,0.260) 25 0.1400 11 19.2 1.92 6.57 5.62 0.97 294.1 58.5 95 170.6 24.6 113 10 (0.42;0.280,0.280) 30 0.1450 08 19.2 2.14 7.40 5.55 1.00 291.6 57.4 100 138.9 19.1 111 9 (0.35;0.320,0.320) 23 0.1500 11 16.3 2.28 7.85 4.73 0.97 299.9 53.3 114 126.1 18.7 71 11 (0.42;0.300,0.300) 30

Ls=100-500mm; 21 str. d1=d2Ns = freeWt = 10V/pCEsurf<300MV/m; no tp dependencedT<60KMax(L/P) L1 = 3.3e38; [Hz/m^2]

Ea = 100 [MV/m], f = 12 [GHz], dphi = 120 [deg], <a>/lambda = 0.1050frep = 61.6486 [Hz], Ltotal = 9.46699e+038 [Hz/m^2], sigma_z = 39.0073 [um]Pbeam = 25.0987 [MW/beam], Pin = 83.7453 [MW/linac], Ep = 1358.43 [kJ/linac]Inv. Cost = 1.02068 [a.u.], 10-years El. Cost = 0.285655 [a.u.]


Ls=100-500mm; 21 str. d1=d2Ns = freeWt = 10V/pCEsurf<300MV/m; no tp dependencedT<60KMin(Cost) L1 = 3.3e38; [Hz/m^2]Ea = 100 [MV/m], f = 12 [GHz], dphi = 120 [deg], <a>/lambda = 0.1100frep = 127.189 [Hz], Ltotal = 1.02272e+039 [Hz/m^2], sigma_z = 41.3732 [um]Pbeam = 24.0699 [MW/beam], Pin = 98.3572 [MW/linac], Ep = 773.314 [kJ/linac]Inv. Cost = 0.917961 [a.u.], 10-years El. Cost = 0.329616 [a.u.]

Ls=100-500mm; 21 str.Ns = freeWt = 10V/pCEsurf<300MV/m; no tp dependencedT<60KMax(L/P)L1 = 3.3e38; [Hz/m^2]


Ea = 100 [MV/m], f = 12 [GHz], dphi = 120 [deg], <a>/lambda = 0.1100 frep = 40.4777 [Hz], Ltotal = 1.00683e+039 [Hz/m^2], sigma_z = 40.6391 [um] Pbeam = 24.137 [MW/beam], Pin = 73.5066 [MW/linac], Ep = 1815.98 [kJ/linac] Inv. Cost = 1.09585 [a.u.], 10-years El. Cost = 0.254851 [a.u.]

Ls=100-500mm; 21 str.Ns = freeWt = 10V/pCEsurf<300MV/m; no tp dependencedT<60KMin(Cost)L1 = 3.3e38; [Hz/m^2]


Ea = 100 [MV/m], f = 12 [GHz], dphi = 120 [deg], <a>/lambda = 0.1100, frep = 108.762 [Hz], Ltotal = 1.02536e+039 [Hz/m^2], sigma_z = 41.5091 [um] Pbeam = 24.0647 [MW/beam], Pin = 90.17 [MW/linac], Ep = 829.059 [kJ/linac] Inv. Cost = 0.926558 [a.u.], 10-years El. Cost = 0.304984 [a.u.]

Ls=100-500mm; 4 str.Ns = freeWt = 10V/pCEsurf<300MV/m; no tp dependencedT<60KMax(L/P)L1 = 3.3e38; [Hz/m^2]Ea = 100 [MV/m], f = 12 [GHz], dphi = 120 [deg], <a>/lambda = 0.1100 frep = 41.5477 [Hz], Ltotal = 9.99145e+038 [Hz/m^2], sigma_z = 40.3199 [um] Pbeam = 24.184 [MW/beam], Pin = 73.2402 [MW/linac], Ep = 1762.8 [kJ/linac] Inv. Cost = 1.08459 [a.u.], 10-years El. Cost = 0.25405 [a.u.]

<a>/l Type Eff Lbx*10^34 N*10^9 L/N*Eff In.Cost Es_max dT_max Pin tp tr Nb Ns (da/a; d1/h, d2/h) Nc [%] [1/m^2] [a.u.] [a.u.] [MV/m] [K] [MW] [ns] [ns] 0.0900 Ef 28.6 0.62 2.34 7.60 1.04 279.2 54.7 37 384.1 30.4 698 5 (0.05;0.100,0.120) 17 0.0950 dT 30.7 0.76 2.64 8.76 1.04 253.3 48.9 41 401.2 39.6 700 5 (0.20;0.140,0.140) 19 0.1000 dT 31.7 0.88 2.92 9.54 1.05 253.1 51.5 45 390.6 35.3 700 5 (0.30;0.200,0.120) 19 0.1050 Ef 32.2 1.00 3.19 10.10 1.07 277.8 58.1 49 382.8 34.3 700 5 (0.42;0.240,0.100) 19 0.1100 dT 33.0 1.15 3.52 10.81 1.08 277.5 57.3 54 372.9 30.3 689 5 (0.45;0.320,0.100) 19 0.1150 dT 33.0 1.24 3.82 10.68 1.10 288.4 60.0 58 361.9 30.5 664 5 (0.52;0.400,0.100) 19 0.1200 dT 29.8 1.43 4.45 9.55 1.11 273.0 59.8 60 332.8 26.8 515 6 (0.41;0.400,0.160) 18 0.1250 Ef 26.1 1.46 4.61 8.24 1.00 298.5 56.8 75 268.1 31.0 297 7 (0.56;0.400,0.140) 27 0.1300 Ef 23.7 1.56 5.05 7.34 0.98 298.7 56.0 81 246.1 30.4 224 8 (0.57;0.400,0.160) 30 0.1350 Ef 20.9 1.72 5.67 6.35 0.98 296.1 60.0 88 227.0 33.2 165 9 (0.54;0.400,0.220) 32 0.1400 Pa 20.1 1.92 6.55 5.90 1.01 299.0 51.1 92 161.8 17.1 147 9 (0.43;0.360,0.200) 22 0.1450 Pa 18.8 2.14 7.38 5.43 1.04 296.4 57.7 97 139.5 17.0 126 9 (0.36;0.300,0.280) 19 0.1500 Pa 17.0 2.35 8.14 4.92 1.04 297.6 57.6 107 113.9 15.8 98 9 (0.32;0.260,0.340) 18

Ls=100-500mm; 4 str.Ns = freeWt = 10V/pCEsurf<300MV/m; no tp dependencedT<60KMin(Cost)L1 = 3.3e38; [Hz/m^2]Ea = 100 [MV/m], f = 12 [GHz], dphi = 120 [deg], <a>/lambda = 0.1100 frep = 108.762 [Hz], Ltotal = 1.02536e+039 [Hz/m^2], sigma_z = 41.5091 [um] Pbeam = 24.0647 [MW/beam], Pin = 90.17 [MW/linac], Ep = 829.059 [kJ/linac] Inv. Cost = 0.926475 [a.u.], 10-years El. Cost = 0.304984 [a.u.]

<a>/l Type Eff Lbx*10^34 N*10^9 L/N*Eff In.Cost Es_max dT_max Pin tp tr Nb Ns (da/a; d1/h, d2/h) Nc [%] [1/m^2] [a.u.] [a.u.] [MV/m] [K] [MW] [ns] [ns] 0.0900 dT 27.4 0.60 2.29 7.18 0.99 257.8 40.7 40 355.9 41.3 572 5 (0.23;0.100,0.100) 21 0.0950 dT 27.2 0.75 2.63 7.76 0.95 265.6 35.6 49 273.8 31.4 410 5 (0.22;0.100,0.100) 24 0.1000 dT 26.0 0.91 2.99 7.90 0.93 271.3 30.4 57 205.1 23.1 289 5 (0.19;0.100,0.100) 25 0.1050 Ef 26.6 1.04 3.30 8.41 0.93 288.2 39.0 64 200.9 25.9 283 5 (0.32;0.100,0.100) 26 0.1100 Ef 26.7 1.19 3.63 8.78 0.93 297.5 39.2 71 185.5 24.1 254 5 (0.37;0.140,0.100) 27 0.1150 Ef 25.5 1.30 4.02 8.26 0.93 286.4 36.8 74 193.6 22.1 224 6 (0.41;0.220,0.100) 29 0.1200 Ef 25.4 1.40 4.34 8.19 0.93 299.2 38.7 81 183.9 21.7 208 6 (0.47;0.260,0.100) 30 0.1250 Ef 23.6 1.48 4.72 7.41 0.93 299.5 38.7 86 185.5 20.9 179 7 (0.52;0.320,0.100) 32 0.1300 Ef 21.7 1.56 5.02 6.74 0.94 299.0 39.0 91 191.3 21.1 159 8 (0.58;0.400,0.100) 34 0.1350 Ef 19.9 1.73 5.73 6.03 0.94 298.0 40.9 101 162.4 21.5 117 8 (0.52;0.380,0.160) 35 0.1400 dT 18.7 1.91 6.49 5.51 0.94 296.1 27.1 109 116.3 10.5 87 9 (0.45;0.400,0.100) 30 0.1450 Pa 17.6 2.09 7.15 5.14 0.97 298.2 35.0 110 116.5 12.1 83 10 (0.44;0.380,0.160) 27 0.1500 Pa 15.9 2.27 7.82 4.63 0.97 297.9 37.6 119 106.2 12.4 65 11 (0.43;0.360,0.200) 28

Ls=229mm; 1 str.; Nc=26Ns = freeWt = 10V/pCEsurf<300MV/m; no tp dependencedT<60KMax(L/P)L1 = 3.3e38; [Hz/m^2]Ea = 100 [MV/m], f = 12 [GHz], dphi = 120 [deg], <a>/lambda = 0.1100 frep = 62.4138 [Hz], Ltotal = 9.47252e+038 [Hz/m^2], sigma_z = 38.506 [um] Pbeam = 24.6144 [MW/beam], Pin = 80.4704 [MW/linac], Ep = 1289.31 [kJ/linac] Inv. Cost = 0.995803 [a.u.], 10-years El. Cost = 0.275802 [a.u.]

<a>/l Type Eff Lbx*10^34 N*10^9 L/N*Eff In.Cost Es_max dT_max Pin tp tr Nb Ns (da/a; d1/h, d2/h) Nc [%] [1/m^2] [a.u.] [a.u.] [MV/m] [K] [MW] [ns] [ns] 0.0900 Nc 24.9 0.60 2.29 6.52 0.96 275.0 40.4 46 315.2 41.3 428 5 (0.23;0.100,0.100) 26 0.0950 Nc 27.2 0.72 2.56 7.66 0.96 259.9 42.8 50 312.7 42.1 451 5 (0.33;0.100,0.100) 26 0.1000 Nc 28.7 0.83 2.82 8.48 0.97 270.8 47.4 53 320.0 41.7 475 5 (0.41;0.160,0.100) 26 0.1050 Nc 29.8 0.97 3.11 9.26 0.98 287.4 53.2 58 314.7 41.0 476 5 (0.48;0.200,0.100) 26 0.1100 Nc 30.6 1.08 3.35 9.84 1.00 299.4 58.5 62 318.7 41.1 490 5 (0.55;0.260,0.100) 26 0.1150 Nc 30.1 1.19 3.68 9.72 1.00 299.5 55.7 67 300.2 38.1 451 5 (0.59;0.360,0.100) 26 0.1200 Nc 28.9 1.34 4.10 9.41 1.01 298.5 58.9 69 304.0 34.9 402 6 (0.58;0.380,0.120) 26 0.1250 Nc 26.9 1.46 4.64 8.49 1.01 299.0 58.6 73 276.3 30.0 319 7 (0.55;0.380,0.140) 26 0.1300 Nc 24.9 1.62 5.46 7.42 0.97 299.2 57.6 83 192.3 25.9 199 7 (0.41;0.260,0.220) 26 0.1350 Nc 22.8 1.73 5.73 6.90 1.01 298.8 58.4 83 229.3 24.3 206 9 (0.52;0.400,0.180) 26 0.1400 Nc 21.5 1.91 6.49 6.34 0.99 299.6 59.2 92 180.1 22.5 150 9 (0.45;0.340,0.240) 26 0.1450 Nc 20.1 2.14 7.38 5.82 0.97 299.7 55.7 107 127.0 19.7 101 8 (0.36;0.260,0.320) 26 0.1500 Nc 17.8 2.33 8.06 5.14 0.98 299.5 55.2 114 114.7 18.1 79 9 (0.35;0.260,0.360) 26

Ls=229mm; 1 str.; Nc=26Ns >=6Wt = 10V/pCEsurf<300MV/m; no tp dependencedT<60KMax(L/P)L1 = 3.3e38; [Hz/m^2]



Ls=180mm; 1 str.; Nc=20Ns >=6Wt = 10V/pCEsurf<300MV/m; no tp dependencedT<60KMax(L/P)L1 = 3.3e38; [Hz/m^2]Ea = 100 [MV/m], f = 12 [GHz], dphi = 120 [deg], <a>/lambda = 0.1100 frep = 43.212 [Hz], Ltotal = 1.00309e+039 [Hz/m^2], sigma_z = 40.4813 [um] Pbeam = 24.159 [MW/beam], Pin = 78.963 [MW/linac], Ep = 1827.34 [kJ/linac] Inv. Cost = 1.09639 [a.u.], 10-years El. Cost = 0.271267 [a.u.]


Ls=229mm; 1 str.; Nc=26Ns >=6Wt = 5V/pCEsurf<300MV/m; no tp dependencedT<60KMax(L/P)L1 = 3.3e38; [Hz/m^2]Ea = 100 [MV/m], f = 12 [GHz], dphi = 120 [deg], <a>/lambda = 0.1100frep = 59.9662 [Hz], Ltotal = 9.47252e+038 [Hz/m^2], sigma_z = 38.506 [um]Pbeam = 24.6144 [MW/beam], Pin = 84.3974 [MW/linac], Ep = 1407.42 [kJ/linac]Inv. Cost = 1.01666 [a.u.], 10-years El. Cost = 0.287617 [a.u.]




<a>/l Type Eff Lbx*10^34 N*10^9 L/N*Eff In.Cost Es_max dT_max Pin tp tr Nb Ns (da/a; d1/h, d2/h) Nc [%] [1/m^2] [a.u.] [a.u.] [MV/m] [K] [MW] [ns] [ns] 0.0900 Nc 0.0 0.00 0.00 NaN 0.00 0.0 0.0 0 0.0 0.0 0 0 (0.00;0.000,0.000) 0 0.0950 Nc 0.0 0.00 0.00 NaN 0.00 0.0 0.0 0 0.0 0.0 0 0 (0.00;0.000,0.000) 0 0.1000 Nc 0.0 0.00 0.00 NaN 0.00 0.0 0.0 0 0.0 0.0 0 0 (0.00;0.000,0.000) 0 0.1050 Nc 0.0 0.00 0.00 NaN 0.00 0.0 0.0 0 0.0 0.0 0 0 (0.00;0.000,0.000) 0 0.1100 Nc 0.0 0.00 0.00 NaN 0.00 0.0 0.0 0 0.0 0.0 0 0 (0.00;0.000,0.000) 0 0.1150 Nc 0.0 0.00 0.00 NaN 0.00 0.0 0.0 0 0.0 0.0 0 0 (0.00;0.000,0.000) 0 0.1200 Nc 0.0 0.00 0.00 NaN 0.00 0.0 0.0 0 0.0 0.0 0 0 (0.00;0.000,0.000) 0 0.1250 Nc 0.0 0.00 0.00 NaN 0.00 0.0 0.0 0 0.0 0.0 0 0 (0.00;0.000,0.000) 0 0.1300 Nc 0.0 0.00 0.00 NaN 0.00 0.0 0.0 0 0.0 0.0 0 0 (0.00;0.000,0.000) 0 0.1350 Nc 0.0 0.00 0.00 NaN 0.00 0.0 0.0 0 0.0 0.0 0 0 (0.00;0.000,0.000) 0 0.1400 Nc 0.0 0.00 0.00 NaN 0.00 0.0 0.0 0 0.0 0.0 0 0 (0.00;0.000,0.000) 0 0.1450 Nc 13.4 2.20 7.78 3.80 0.99 219.8 30.6 102 104.1 11.0 50 13 (0.13;0.340,0.320) 26 0.1500 Nc 11.4 2.39 8.45 3.23 1.03 219.9 29.6 111 90.2 9.1 37 15 (0.15;0.380,0.300) 26

Ls=229mm; 1 str.; Nc=26Ns >=6Wt = 10V/pCEsurf<260MV/m; no tp dependencedT<60KMax(L/P)L1 = 3.3e38; [Hz/m^2]Ea = 100 [MV/m], f = 12 [GHz], dphi = 120 [deg], <a>/lambda = 0.1100 frep = 69.0089 [Hz], Ltotal = 9.86056e+038 [Hz/m^2], sigma_z = 39.814 [um] Pbeam = 24.2775 [MW/beam], Pin = 87.3237 [MW/linac], Ep = 1265.4 [kJ/linac] Inv. Cost = 0.994858 [a.u.], 10-years El. Cost = 0.296421 [a.u.]

<a>/l Type Eff Lbx*10^34 N*10^9 L/N*Eff In.Cost Es_max dT_max Pin tp tr Nb Ns (da/a; d1/h, d2/h) Nc [%] [1/m^2] [a.u.] [a.u.] [MV/m] [K] [MW] [ns] [ns] 0.0900 Nc 0.0 0.00 0.00 NaN 0.00 0.0 0.0 0 0.0 0.0 0 0 (0.00;0.000,0.000) 0 0.0950 Nc 26.1 0.72 2.56 7.36 0.98 246.4 42.7 47 363.4 42.1 471 6 (0.33;0.120,0.100) 26 0.1000 Nc 27.5 0.83 2.82 8.13 0.99 256.8 47.4 50 372.9 41.7 496 6 (0.41;0.180,0.100) 26 0.1050 Nc 28.2 0.98 3.13 8.78 1.00 259.4 47.6 54 360.4 38.6 479 6 (0.46;0.260,0.100) 26 0.1100 Nc 27.8 1.13 3.47 9.07 0.99 259.1 56.3 60 323.8 33.1 422 6 (0.48;0.340,0.100) 26 0.1150 Nc 27.0 1.30 4.03 8.76 0.97 259.4 51.5 67 242.2 24.4 299 6 (0.40;0.340,0.120) 26 0.1200 Nc 26.0 1.44 4.54 8.29 0.96 259.5 49.2 75 198.7 20.4 233 6 (0.36;0.360,0.140) 26 0.1250 Nc 24.6 1.55 5.10 7.50 0.96 259.8 42.1 77 197.0 22.0 200 7 (0.33;0.340,0.200) 26 0.1300 Nc 23.1 1.65 5.60 6.80 0.97 259.9 43.0 81 191.5 20.8 174 8 (0.34;0.360,0.220) 26 0.1350 Nc 21.1 1.81 6.22 6.13 0.98 259.3 47.9 85 181.8 21.6 143 9 (0.32;0.360,0.280) 26 0.1400 Nc 18.8 1.96 6.85 5.39 0.97 259.9 43.1 94 147.1 17.0 103 10 (0.30;0.340,0.280) 26 0.1450 Nc 16.6 2.17 7.58 4.76 0.98 259.0 42.2 102 124.9 15.2 76 11 (0.27;0.320,0.320) 26 0.1500 Nc 15.4 2.37 8.23 4.44 0.98 259.6 36.9 114 103.2 12.4 60 11 (0.28;0.360,0.300) 26


Ea = 100 [MV/m], f = 12 [GHz], dphi = 120 [deg], <a>/lambda = 0.1100frep = 101.225 [Hz], Ltotal = 1.04062e+039 [Hz/m^2], sigma_z = 42.4654 [um] Pbeam = 24.1174 [MW/beam],Pin = 91.7197 [MW/linac], Ep = 906.093 [kJ/linac] Inv. Cost = 0.940798 [a.u.], 10-years El. Cost = 0.309646 [a.u.]

<a>/l Type Eff Lbx*10^34 N*10^9 L/N*Eff In.Cost Es_max dT_max Pin tp tr Nb Ns (da/a; d1/h, d2/h) Nc [%] [1/m^2] [a.u.] [a.u.] [MV/m] [K] [MW] [ns] [ns] 0.0900 Nc 0.0 0.00 0.00 NaN 0.00 0.0 0.0 0 0.0 0.0 0 0 (0.00;0.000,0.000) 0 0.0950 Nc 25.2 0.74 2.62 7.16 0.96 257.2 36.0 48 306.2 34.0 386 6 (0.25;0.100,0.100) 26 0.1000 Nc 25.9 0.89 2.94 7.82 0.95 249.7 35.9 53 278.3 29.1 354 6 (0.28;0.140,0.100) 26 0.1050 Nc 26.4 1.04 3.30 8.36 0.95 257.8 36.0 58 252.4 25.9 320 6 (0.32;0.180,0.100) 26 0.1100 Nc 26.3 1.22 3.72 8.64 0.94 258.5 35.4 64 216.4 22.1 267 6 (0.29;0.200,0.120) 26 0.1150 Nc 25.4 1.34 4.18 8.16 0.94 259.4 36.0 70 186.9 20.4 216 6 (0.29;0.240,0.140) 26 0.1200 Nc 24.6 1.46 4.63 7.77 0.95 257.8 36.0 73 189.7 18.9 200 7 (0.29;0.260,0.160) 26 0.1250 Nc 23.4 1.57 5.16 7.09 0.94 259.1 35.9 81 156.1 15.6 156 7 (0.29;0.300,0.160) 26 0.1300 Nc 22.3 1.67 5.68 6.53 0.96 255.9 35.4 84 160.6 16.2 144 8 (0.29;0.320,0.200) 26 0.1350 Nc 20.6 1.81 6.22 6.00 0.96 259.3 35.4 89 151.8 14.7 123 9 (0.32;0.360,0.200) 26 0.1400 Nc 18.3 1.97 6.89 5.24 0.97 252.3 34.6 96 131.8 13.5 92 10 (0.28;0.360,0.240) 26 0.1450 Nc 16.1 2.18 7.60 4.62 0.97 255.1 35.9 105 112.2 12.8 68 11 (0.26;0.320,0.280) 26 0.1500 Nc 15.3 2.37 8.23 4.41 0.98 258.9 34.5 115 99.2 11.5 58 11 (0.28;0.360,0.280) 26

Ls=100-500mm; 4 str.Ns = freeWt = 10V/pCEsurf<260MV/m; no tp dependencedT<36KMax(L/P)L1 = 3.3e38; [Hz/m^2]

<a>/l Type Eff Lbx*10^34 N*10^9 L/N*Eff In.Cost Es_max dT_max Pin tp tr Nb Ns (da/a; d1/h, d2/h) Nc [%] [1/m^2] [a.u.] [a.u.] [MV/m] [K] [MW] [ns] [ns] 0.0900 dT 25.2 0.61 2.30 6.62 0.99 255.2 36.0 37 296.8 37.3 466 5 (0.19;0.100,0.100) 18 0.0950 dT 27.1 0.76 2.66 7.78 0.99 259.0 36.0 43 274.8 27.0 467 5 (0.16;0.100,0.100) 18 0.1000 dT 28.5 0.91 2.99 8.65 0.98 258.3 36.0 51 252.0 23.1 426 5 (0.19;0.120,0.100) 20 0.1050 dT 26.5 1.06 3.36 8.39 0.97 257.5 36.0 55 246.3 21.6 345 6 (0.25;0.160,0.100) 22 0.1100 dT 26.5 1.23 3.77 8.65 0.97 259.0 35.7 60 218.3 18.9 307 6 (0.23;0.180,0.120) 21 0.1150 dT 24.7 1.35 4.21 7.93 0.96 256.9 36.0 65 210.0 18.9 244 7 (0.26;0.220,0.140) 23 0.1200 dT 24.4 1.48 4.71 7.67 0.96 251.2 35.9 70 184.7 17.6 206 7 (0.22;0.240,0.180) 23 0.1250 dT 22.5 1.57 5.18 6.83 0.96 255.4 35.2 77 173.4 16.6 164 8 (0.27;0.280,0.180) 25 0.1300 dT 22.1 1.67 5.70 6.48 0.96 256.2 35.7 83 158.4 15.8 145 8 (0.28;0.320,0.200) 25 0.1350 dT 20.3 1.81 6.24 5.88 0.97 259.9 35.3 89 148.4 14.3 122 9 (0.31;0.360,0.200) 25 0.1400 dT 18.1 1.98 6.94 5.15 0.98 246.2 35.5 94 133.6 13.6 96 10 (0.25;0.380,0.260) 24 0.1450 dT 15.2 2.15 7.45 4.38 0.96 259.3 28.8 109 112.1 10.9 61 12 (0.33;0.400,0.200) 29 0.1500 dT 13.7 2.37 8.25 3.93 0.98 253.1 26.0 118 87.9 8.8 47 12 (0.27;0.400,0.220) 26


Ls=100-500mm; 4 str.Ns = freeWt = 10V/pCEsurf<260MV/m; no tp dependencedT<36KMin(Cost)L1 = 3.3e38; [Hz/m^2]Ea = 100 [MV/m], f = 12 [GHz], dphi = 120 [deg], <a>/lambda = 0.1100 frep = 116.496 [Hz], Ltotal = 1.04062e+039 [Hz/m^2], sigma_z = 42.4654 [um] Pbeam = 24.1174 [MW/beam], Pin = 95.6292 [MW/linac], Ep = 820.876 [kJ/linac] Inv. Cost = 0.9275 [a.u.], 10-years El. Cost = 0.321409 [a.u.]

<a>/l Type Eff Lbx*10^34 N*10^9 L/N*Eff In.Cost Es_max dT_max Pin tp tr Nb Ns (da/a; d1/h, d2/h) Nc [%] [1/m^2] [a.u.] [a.u.] [MV/m] [K] [MW] [ns] [ns] 0.0900 dT 24.7 0.60 2.29 6.47 0.97 257.8 35.7 40 296.8 41.3 430 5 (0.23;0.100,0.100) 21 0.0950 dT 26.4 0.74 2.61 7.50 0.95 259.6 36.0 48 276.4 34.9 398 5 (0.26;0.120,0.100) 24 0.1000 Es 27.1 0.89 2.96 8.18 0.94 260.0 34.6 56 233.1 26.9 338 5 (0.25;0.120,0.100) 25 0.1050 dT 25.4 1.05 3.32 8.03 0.93 258.0 33.2 60 226.2 23.9 274 6 (0.29;0.160,0.100) 27 0.1100 Ef 25.2 1.22 3.72 8.28 0.93 260.0 34.6 67 195.0 19.4 232 6 (0.29;0.200,0.100) 27 0.1150 Ef 23.9 1.35 4.19 7.69 0.92 259.5 36.0 75 159.7 15.6 175 6 (0.28;0.240,0.100) 28 0.1200 dT 24.0 1.46 4.62 7.61 0.94 259.9 35.3 74 185.8 19.4 189 7 (0.30;0.260,0.160) 27 0.1250 Ef 21.9 1.56 5.13 6.67 0.93 259.0 35.4 85 159.3 18.5 138 7 (0.31;0.300,0.180) 30 0.1300 dT 21.4 1.66 5.66 6.29 0.95 257.0 34.5 87 154.8 16.7 129 8 (0.30;0.320,0.200) 28 0.1350 dT 19.7 1.80 6.20 5.74 0.95 259.3 33.7 94 144.8 15.2 106 9 (0.33;0.360,0.200) 29 0.1400 dT 17.7 1.97 6.89 5.06 0.96 253.0 31.1 100 122.0 12.3 82 10 (0.28;0.360,0.220) 27 0.1450 dT 15.2 2.15 7.45 4.38 0.96 259.3 28.8 109 112.1 10.9 61 12 (0.33;0.400,0.200) 29 0.1500 dT 13.7 2.36 8.19 3.94 0.98 259.7 24.9 121 87.5 8.7 45 12 (0.30;0.400,0.200) 28

CLIC structure optimization results (all data) 28/08/07 A. Grudiev.

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Transcript of CLIC structure optimization results (all data) 28/08/07 A. Grudiev.