For electron-positron ("ee") interactions, the following integrated luminosities are assumed:
For processes with initial-state photons from Beamstrahlung, the luminosity numbers are different. More details can be found in this presentation by A. Sailer:
. The instantaneous luminosities normalised to the ee luminosity are shown in the following table:
Type |
Energy |
Detector |
ProdID |
Events planned |
Events produced |
σ [fb] |
Comments |
ee -> tth, tt->llvvbb, h->bb |
1400 GeV |
CLIC_SiD |
2429 |
50000 |
50000 |
0.100 |
Generated using Physsim, m(h) = 125 GeV, q=u,d,s,c,b |
ee -> tth, tt->llvvbb, h->not bb |
1400 GeV |
CLIC_SiD |
2432 |
50000 |
50000 |
0.073 |
Generated using Physsim, m(h) = 125 GeV,, q=u,d,s,c,b |
ee -> ttZ, tt->llvvbb |
1400 GeV |
CLIC_SiD |
2447 |
50000 |
50000 |
0.439 |
Generated using Physsim, q=u,d,s,c,b |
ee -> ttZ, tt->lvbbqq |
1400 GeV |
CLIC_SiD |
2453 |
50000 |
50000 |
1.825 |
Generated using Physsim, q=u,d,s,c,b |
ee -> ttZ, tt->bbqqqq |
1400 GeV |
CLIC_SiD |
2450 |
50000 |
50000 |
1.895 |
Generated using Physsim, q=u,d,s,c,b |
ee -> ttbb, tt->llvvbb |
1400 GeV |
CLIC_SiD |
2420 |
50000 |
50000 |
0.127 |
Generated using Physsim, q=u,d,s,c,b |
ee -> ttbb, tt->lvbbqq |
1400 GeV |
CLIC_SiD |
2426 |
50000 |
50000 |
0.529 |
Generated using Physsim, q=u,d,s,c,b |
ee -> ttbb, tt->bbqqqq |
1400 GeV |
CLIC_SiD |
2423 |
50000 |
50000 |
0.549 |
Generated using Physsim, q=u,d,s,c,b |
ee -> qq |
1400 GeV |
CLIC_SiD |
2098 |
500000 |
525000 |
4008.8 |
m(h) = 126 GeV, q=u,d,s,c,b |
ee -> qqvv |
1400 GeV |
CLIC_SiD |
2096 |
500000 |
482000 |
933.8 |
m(h) = 126 GeV, q=u,d,s,c,b |
ee -> qq |
1400 GeV |
CLIC_ILD |
2091 |
500000 |
459000 |
4009.5 |
m(h) = 126 GeV, q=u,d,s,c,b |
ee -> qqvv |
1400 GeV |
CLIC_ILD |
2094 |
500000 |
474000 |
933.9 |
m(h) = 126 GeV, q=u,d,s,c,b |
ee -> qqvv |
1400 GeV |
CLIC_ILD |
2199 |
500000 |
439000 |
788.0 |
no beam recoil, m(h) = 12.6 TeV, q=u,d,s,c,b |
ee -> qqvv |
1400 GeV |
CLIC_SiD |
2201 |
500000 |
474000 |
788.0 |
no beam recoil, m(h) = 12.6 TeV, q=u,d,s,c,b |
ee -> ttbar |
1400 GeV |
CLIC_SiD |
2417 |
300000 |
300000 |
135.8 |
Generated using PYTHIA |
ee -> qqll |
1400 GeV |
CLIC_SiD |
2301 |
200000 |
237000 |
2726.7 |
no beam recoil, m(h) = 12 TeV, q=u,d,s,c,b, l=e,mu,tau |
ee -> qqlv |
1400 GeV |
CLIC_SiD |
2159 |
200000 |
429000 |
4312.9 |
no beam recoil, m(h) = 12 TeV, q=u,d,s,c,b, l=e,mu,tau, v=nu_e,nu_mu,nu_tau |
ee -> qqqq |
1400 GeV |
CLIC_ILD |
2163 |
500000 |
429000 |
1328.1 |
no beam recoil, m(h) = 10 TeV, q=u,d,s,c,b, same events as ProdID =1097 |
ee -> qqqqvv |
1400 GeV |
CLIC_ILD |
2152 |
100000 |
117000 |
24.7 |
no beam recoil, m(h) = 10 TeV, q=u,d,s,c,b, v=nu_e,nu_mu,nu_tau, same events as ProdID =1081 |
ee -> qqqqlv |
1400 GeV |
CLIC_ILD |
2169 |
200000 |
176000 |
115.3 |
no beam recoil, m(h) = 10 TeV, q=u,d,s,c,b, l=e,mu,tau, v=nu_e,nu_mu,nu_tau, same events as ProdID =1085 |
ee -> qqqqll |
1400 GeV |
CLIC_ILD |
2166 |
120000 |
205000 |
71.7 |
no beam recoil, m(h) = 10 TeV, q=u,d,s,c,b, l=e,mu,tau, v=nu_e,nu_mu,nu_tau, same events as ProdID =1089 |
ee -> mu+mu-nunu |
1400 GeV |
CLIC_ILD |
2172 |
200000 |
236000 |
129.0 |
no beam recoil, m(h) = 12 TeV |
ee -> tau+tau- |
1400 GeV |
CLIC_ILD |
2187 |
500000 |
482500 |
358.0 |
no beam recoil, m(h) = 12 TeV |
ee -> tau+tau-nunu |
1400 GeV |
CLIC_ILD |
2190 |
150000 |
133000 |
84.5 |
no beam recoil, m(h) = 12 TeV |
ee -> e+e-tau+tau- |
1400 GeV |
CLIC_ILD |
2193 |
500000 |
464500 |
1942.2 |
no beam recoil, m(h) = 12 TeV |
ee -> qqqq |
3 TeV |
CLIC_ILD |
2207 |
500000 |
746400 |
593.0 |
no beam recoil, m(h) = 12 TeV, q=u,d,s,c,b |
ee -> qqqqnunu |
3 TeV |
CLIC_ILD |
2210 |
309600 |
309600 |
74.1 |
no beam recoil, m(h) = 12 TeV, same events as ProdID =1460 |
ee -> qqqqll |
3 TeV |
CLIC_ILD |
2212 |
157000 |
157000 |
182.4 |
no beam recoil, m(h) = 12 TeV, same events as ProdiD =1458 |
ee -> eemumu |
1400 GeV |
CLIC_ILD |
2146 |
1000000 |
1000000 |
431 |
stdhep files generated locally |
eg -> emumu |
1400 GeV |
CLIC_ILD |
2148 |
1000000 |
1000000 |
1280 |
stdhep files generated locally |
ge -> emumu |
1400 GeV |
CLIC_ILD |
2182 |
1000000 |
1000000 |
1280 |
stdhep files generated locally |
ee -> mu+mu- |
1400 GeV |
CLIC_ILD |
2215 |
30000 |
50000 |
17.0 |
no beam recoil, 100 < M(mu+mu-) < 150 GeV |
ee -> gammagamma |
1400 GeV |
CLIC_SiD |
2306 |
20000 |
22800 |
1735.9* |
m(h) = 12 TeV, preselection cuts for the h->gammagamma analysis |
ee -> vvgamma |
1400 GeV |
CLIC_SiD |
2327 |
150000 |
148800 |
13379.3* |
m(h) = 12 TeV, preselection cuts for the h->gammagamma analysis |
ee -> vvgammagamma |
1400 GeV |
CLIC_SiD |
2330 |
20000 |
19800 |
1679.9* |
m(h) = 12 TeV, preselection cuts for the h->gammagamma analysis |
ee -> e+e-gamma |
1400 GeV |
CLIC_SiD |
2321 |
20000 (maybe more later) |
19600 |
184536.3* |
m(h) = 12 TeV, preselection cuts for the h->gammagamma analysis |
ee -> e+e-gammagamma |
1400 GeV |
CLIC_SiD |
2318 |
20000 |
20200 |
4119.5* |
m(h) = 12 TeV, preselection cuts for the h->gammagamma analysis |
ee -> mu+mu-gamma |
1400 GeV |
CLIC_SiD |
2315 |
20000 |
17200 |
151.2* |
m(h) = 12 TeV, preselection cuts for the h->gammagamma analysis |
ee -> mu+mu-gammagamma |
1400 GeV |
CLIC_SiD |
2312 |
20000 |
16000 |
29.7* |
m(h) = 12 TeV, preselection cuts for the h->gammagamma analysis |
ee -> qqgamma |
1400 GeV |
CLIC_SiD |
2324 |
70000 |
72200 |
1175.7* |
m(h) = 12 TeV, preselection cuts for the h->gammagamma analysis |
ee -> qqgammagamma |
1400 GeV |
CLIC_SiD |
2309 |
20000 |
26000 |
144.7* |
m(h) = 12 TeV, preselection cuts for the h->gammagamma analysis |
ee -> vvqqgamma |
1400 GeV |
CLIC_SiD |
2859 |
200000 |
197000 |
120.7* |
m(h) = 10 TeV, 8 < theta(q,gamma) < 172 degrees, preselection cuts for the h->Zgamma analysis, efficiency of the preselection cuts: 30.9% |
ee -> vvqq |
1400 GeV |
CLIC_SiD |
2336 |
20000 |
19800 |
787.6* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
ee -> vvllgamma |
1400 GeV |
CLIC_SiD |
2821 |
200000 |
200000 |
142.5* |
m(h) = 10 TeV, 8 < theta(l,gamma) < 172 degrees, preselection cuts for the h->Zgamma analysis, efficiencey of the preselection cuts: 6.1% obsolete (see ProdID =3492) |
ee -> vvll |
1400 GeV |
CLIC_SiD |
2342 |
40000 |
37800 |
2163.7* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
ee -> llll |
1400 GeV |
CLIC_SiD |
2345 |
20000 |
18200 |
7088.4* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
ee -> qqllgamma |
1400 GeV |
CLIC_SiD |
2348 |
40000 |
39000 |
136.0* |
m(h) = 10 TeV, preselection cuts for the h->Zgamma analysis, efficiency of the preselection cuts: 13.4% |
ee -> qqll |
1400 GeV |
CLIC_SiD |
2351 |
1600000 |
1932800 |
2725.6* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
eγ -> eqqqq (γ from BS) |
1400 GeV |
CLIC_SiD |
2358 |
500000 |
419800 |
1160.8 |
m(h) = 12 TeV |
γe -> eqqqq (γ from BS) |
1400 GeV |
CLIC_SiD |
2364 |
500000 |
386800 |
1156.5 |
m(h) = 12 TeV |
eγ -> eqqqq (γ from BS) |
3 TeV |
CLIC_SiD |
2370 |
500000 |
165100 |
2650.7 |
m(h) = 12 TeV |
γe -> eqqqq (γ from BS) |
3 TeV |
CLIC_SiD |
2376 |
500000 |
163200 |
2545.9 |
m(h) = 12 TeV |
eγ -> eqqqq (γ from EPA) |
1400 GeV |
CLIC_SiD |
2355 |
500000 |
423400 |
287.0 |
m(h) = 12 TeV |
γe -> eqqqq (γ from EPA) |
1400 GeV |
CLIC_SiD |
2361 |
500000 |
401800 |
287.0 |
m(h) = 12 TeV |
eγ -> eqqqq (γ from EPA) |
3 TeV |
CLIC_SiD |
2367 |
500000 |
141600 |
661.8 |
m(h) = 12 TeV |
γe -> eqqqq (γ from EPA) |
3 TeV |
CLIC_SiD |
2373 |
500000 |
128100 |
661.2 |
m(h) = 12 TeV |
eγ -> eqq (γ from BS) |
1.4 TeV |
CLIC_SiD |
2501 |
500000 |
500000 |
37313 |
m(h) = 12 TeV |
γe -> eqq (γ from BS) |
1.4 TeV |
CLIC_SiD |
2507 |
500000 |
500000 |
37362 |
m(h) = 12 TeV |
eγ -> eqq (γ from EPA) |
1.4 TeV |
CLIC_SiD |
2498 |
500000 |
500000 |
16154 |
m(h) = 12 TeV |
γe -> eqq (γ from EPA) |
1.4 TeV |
CLIC_SiD |
2504 |
500000 |
500000 |
16153 |
m(h) = 12 TeV |
eγ -> eqq (γ from BS) |
1.4 TeV |
CLIC_ILD |
2523 |
500000 |
500000 |
37313 |
m(h) = 12 TeV |
γe -> eqq (γ from BS) |
1.4 TeV |
CLIC_ILD |
2527 |
500000 |
500000 |
37362 |
m(h) = 12 TeV |
eγ -> eqq (γ from EPA) |
1.4 TeV |
CLIC_ILD |
2515 |
500000 |
500000 |
16154 |
m(h) = 12 TeV |
γe -> eqq (γ from EPA) |
1.4 TeV |
CLIC_ILD |
2525 |
500000 |
500000 |
16153 |
m(h) = 12 TeV |
eγ -> qqqqnu (γ from BS) |
1.4 TeV |
CLIC_SiD |
2576 |
500000 |
427500 |
136.9 |
m(h) = 12 TeV |
γe -> qqqqnu (γ from BS) |
1.4 TeV |
CLIC_SiD |
2582 |
500000 |
395000 |
136.4 |
m(h) = 12 TeV |
eγ -> qqqqnu (γ from EPA) |
1.4 TeV |
CLIC_SiD |
2573 |
500000 |
441000 |
32.6 |
m(h) = 12 TeV |
γe -> qqqqnu (γ from EPA) |
1.4 TeV |
CLIC_SiD |
2579 |
500000 |
403000 |
32.6 |
m(h) = 12 TeV |
eγ -> qqqqnu (γ from BS) |
3 TeV |
CLIC_SiD |
2588 |
500000 |
434200 |
360.5 |
m(h) = 12 TeV |
γe -> qqqqnu (γ from BS) |
3 TeV |
CLIC_SiD |
2594 |
500000 |
428400 |
360.0 |
m(h) = 12 TeV |
eγ -> qqqqnu (γ from EPA) |
3 TeV |
CLIC_SiD |
2585 |
500000 |
206200 |
84.3 |
m(h) = 12 TeV |
γe -> qqqqnu (γ from EPA) |
3 TeV |
CLIC_SiD |
2591 |
500000 |
208200 |
84.3 |
m(h) = 12 TeV |
γγ -> qqqq (both γ from BS) |
1.4 TeV |
CLIC_SiD |
2643 |
400000 |
482400 |
4009.0 |
m(h) = 12 TeV, m(b) = m(c) = m(s) = m(u) = m(d) = 0, m(qq) > 40 GeV for quark pairs |
γγ -> qqqq (first γ from BS, second γ from EPA) |
1.4 TeV |
CLIC_SiD |
2640 |
200000 |
234800 |
692.1 |
m(h) = 12 TeV, m(b) = m(c) = m(s) = m(u) = m(d) = 0, m(qq) > 40 GeV for quark pairs |
γγ -> qqqq (first γγ from EPA, second γ from BS) |
1.4 TeV |
CLIC_SiD |
2637 |
200000 |
234400 |
696.3 |
m(h) = 12 TeV, m(b) = m(c) = m(s) = m(u) = m(d) = 0, m(qq) > 40 GeV for quark pairs |
γγ -> qqqq (both γ from EPA) |
1.4 TeV |
CLIC_SiD |
2634 |
100000 |
116400 |
128.1 |
m(h) = 12 TeV, m(b) = m(c) = m(s) = m(u) = m(d) = 0, m(qq) > 40 GeV for quark pairs |
ee -> qqll |
1.4 TeV |
CLIC_ILD |
2645 |
200000 |
226500 |
2726.7 |
m(h) = 12 TeV, q=u,d,s,c,b, l=e,mu,tau, same events as used for ProdID =2301 |
γγ -> qqqq (both γ from BS) |
3 TeV |
CLIC_SiD |
2657 |
400000 |
396400 |
11739.7 |
m(h) = 12 TeV, m(b) = m(c) = m(s) = m(u) = m(d) = 0, m(qq) > 40 GeV for quark pairs |
γγ -> qqqq (first γ from BS, second γ from EPA) |
3 TeV |
CLIC_SiD |
2654 |
200000 |
125900 |
2066.9 |
m(h) = 12 TeV, m(b) = m(c) = m(s) = m(u) = m(d) = 0, m(qq) > 40 GeV for quark pairs |
γγ -> qqqq (first γγ from EPA, second γ from BS) |
3 TeV |
CLIC_SiD |
2651 |
200000 |
131700 |
2070.0 |
m(h) = 12 TeV, m(b) = m(c) = m(s) = m(u) = m(d) = 0, m(qq) > 40 GeV for quark pairs |
γγ -> qqqq (both γ from EPA) |
3 TeV |
CLIC_SiD |
2648 |
100000 |
48600 |
325.0 |
m(h) = 12 TeV, m(b) = m(c) = m(s) = m(u) = m(d) = 0, m(qq) > 40 GeV for quark pairs |
ee -> qqnunu |
3 TeV |
CLIC_ILD |
2660 |
200000 |
195600 |
1317.5 |
m(h) = 12 TeV, q=u,d,s,c,b |
ee -> hqq |
1.4 TeV |
CLIC_SiD |
2665 |
20000 |
49000 |
9.31 |
m(h) = 126 GeV, q=u,d,s,c,b |
ee -> hqq |
3 TeV |
CLIC_SiD |
2668 |
20000 |
18600 |
3.67 |
m(h) = 126 GeV, q=u,d,s,c,b |
ee -> tautau |
3 TeV |
CLIC_ILD |
2848 |
20000 |
20000 |
243.1* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
ee -> tautauvv |
3 TeV |
CLIC_ILD |
2851 |
80000 |
98900 |
95.5* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
ee -> tautauee |
3 TeV |
CLIC_ILD |
2854 |
200000 |
203400 |
2373.8* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
ee -> tautaumumu |
3 TeV |
CLIC_ILD |
2857 |
20000 |
19900 |
0.96* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> tautaull (both γ from BS) |
3 TeV |
CLIC_ILD |
2833 |
200000 |
200300 |
1106.9* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> tautaull (first γ from BS, second γ from EPA) |
3 TeV |
CLIC_ILD |
2830 |
100000 |
100700 |
235.5* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> tautaull (first γ from EPA, second γ from BS) |
3 TeV |
CLIC_ILD |
2827 |
100000 |
101200 |
235.6* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> tautaull (both γ from EPA) |
3 TeV |
CLIC_ILD |
2824 |
50000 |
50600 |
40.1* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> tautauvv (both γ from BS) |
3 TeV |
CLIC_ILD |
2845 |
200000 |
200400 |
389.2* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> tautauvv (first γ from BS, second γ from EPA) |
3 TeV |
CLIC_ILD |
2842 |
100000 |
101300 |
72.5* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> tautauvv (first γ from EPA, second γ from BS) |
3 TeV |
CLIC_ILD |
2839 |
100000 |
100800 |
72.5* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> tautauvv (both γ from EPA) |
3 TeV |
CLIC_ILD |
2836 |
50000 |
50300 |
11.7* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
ee -> qqvv |
350 GeV |
CLIC_ILD |
2862 |
300000 |
306500 |
324.6 |
m(h) = 12 TeV |
ee -> qqlv |
350 GeV |
CLIC_ILD |
2865 |
1500000 |
1437500 |
5914 |
m(h) = 12 TeV |
ee -> qqll |
350 GeV |
CLIC_ILD |
2868 |
500000 |
488500 |
1704 |
m(h) = 12 TeV |
ee -> qqqq |
350 GeV |
CLIC_ILD |
2871 |
1500000 |
1440500 |
5847 |
m(h) = 12 TeV |
eγ -> eqqgamma (γ from BS) |
1.4 TeV |
CLIC_SiD |
2955 |
85000 |
97000 |
648.0* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
γe -> eqqgamma (γ from BS) |
1.4 TeV |
CLIC_SiD |
2961 |
85000 |
100800 |
648.5* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
eγ -> eqqgamma (γ from EPA) |
1.4 TeV |
CLIC_SiD |
2952 |
65000 |
70800 |
246.8* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
γe -> eqqgamma (γ from EPA) |
1.4 TeV |
CLIC_SiD |
2958 |
65000 |
77400 |
246.7* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
eγ -> nunuqqe (γ from BS) |
1.4 TeV |
CLIC_SiD |
3003 |
20000 |
19600 |
15.1* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
γe -> nunuqqe (γ from BS) |
1.4 TeV |
CLIC_SiD |
3009 |
20000 |
19400 |
15.0* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
eγ -> nunuqqe (γ from EPA) |
1.4 TeV |
CLIC_SiD |
3000 |
20000 |
18600 |
3.3* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
γe -> nunuqqe (γ from EPA) |
1.4 TeV |
CLIC_SiD |
3006 |
20000 |
17800 |
3.3* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
eγ -> ellgamma (γ from BS) |
1.4 TeV |
CLIC_SiD |
2967 |
80000 |
90600 |
1928.1* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
γe -> ellgamma (γ from BS) |
1.4 TeV |
CLIC_SiD |
2973 |
80000 |
90600 |
1928.3* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
eγ -> ellgamma (γ from EPA) |
1.4 TeV |
CLIC_SiD |
2964 |
80000 |
93600 |
778.9* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
γe -> ellgamma (γ from EPA) |
1.4 TeV |
CLIC_SiD |
2970 |
80000 |
92800 |
779.0* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
eγ -> ellqq (γ from BS) |
1.4 TeV |
CLIC_SiD |
3256 |
20000 |
22500 |
|
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
γe -> ellqq (γ from BS) |
1.4 TeV |
CLIC_SiD |
3260 |
20000 |
23500 |
|
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
eγ -> ellqq (γ from EPA) |
1.4 TeV |
CLIC_SiD |
3254 |
20000 |
22500 |
|
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
γe -> ellqq (γ from EPA) |
1.4 TeV |
CLIC_SiD |
3258 |
20000 |
21000 |
|
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis |
eγ -> ell (γ from BS) |
1.4 TeV |
CLIC_SiD |
3015 |
300000 |
309800 |
21569.4* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis, E(l) > 10 GeV, 8 < theta(l) < 172 degrees |
γe -> ell (γ from BS) |
1.4 TeV |
CLIC_SiD |
3021 |
300000 |
309400 |
21646.0* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis, E(l) > 10 GeV, 8 < theta(l) < 172 degrees |
eγ -> ell (γ from EPA) |
1.4 TeV |
CLIC_SiD |
3012 |
1000000 |
1008600 |
19796.5* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis, E(l) > 10 GeV, 8 < theta(l) < 172 degrees |
γe -> ell (γ from EPA) |
1.4 TeV |
CLIC_SiD |
3018 |
1000000 |
1027400 |
19802.3* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis, E(l) > 10 GeV, 8 < theta(l) < 172 degrees |
eγ -> eqq (γ from BS) |
1.4 TeV |
CLIC_SiD |
3027 |
500000 |
507200 |
10466.8* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis, E(q) > 10 GeV, 8 < theta(q) < 172 degrees |
γe -> eqq (γ from BS) |
1.4 TeV |
CLIC_SiD |
3033 |
500000 |
506400 |
10504.4* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis, E(q) > 10 GeV, 8 < theta(q) < 172 degrees |
eγ -> eqq (γ from EPA) |
1.4 TeV |
CLIC_SiD |
3024 |
800000 |
811600 |
7480.1* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis, E(q) > 10 GeV, 8 < theta(q) < 172 degrees |
γe -> eqq (γ from EPA) |
1.4 TeV |
CLIC_SiD |
3030 |
800000 |
793200 |
7482.0* |
m(h) = 12 TeV, preselection cuts for the h->Zgamma analysis, E(q) > 10 GeV, 8 < theta(q) < 172 degrees |
ee -> qqll |
3 TeV |
CLIC_ILD |
3048 |
500000 |
482500 |
3319.6 |
m(h) = 12 TeV |
eγ -> eqq (γ from BS) |
3 TeV |
CLIC_ILD |
3222 |
|
293350 |
40683.4* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γe -> eqq (γ from BS) |
3 TeV |
CLIC_ILD |
3228 |
|
317300 |
40703.5* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
eγ -> eqq (γ from EPA) |
3 TeV |
CLIC_ILD |
3219 |
|
298700 |
21317.4* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γe -> eqq (γ from EPA) |
3 TeV |
CLIC_ILD |
3225 |
|
305250 |
21308.3* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
eγ -> qqvve (γ from BS) |
3 TeV |
CLIC_ILD |
3234 |
|
39000 |
47.09* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γe -> qqvve (γ from BS) |
3 TeV |
CLIC_ILD |
3240 |
|
18350 |
47.04* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
eγ -> qqvve (γ from EPA) |
3 TeV |
CLIC_ILD |
3231 |
|
18600 |
10.17* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γe -> qqvve (γ from EPA) |
3 TeV |
CLIC_ILD |
3237 |
|
18100 |
10.16* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> tautau (both γ from BS) |
3 TeV |
CLIC_ILD |
3132 |
|
295400 |
1841288.2* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> tautau (first γ from BS, second γ from EPA) |
3 TeV |
CLIC_ILD |
3129 |
|
320900 |
846888.2* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> tautau (first γ from EPA, second γ from BS) |
3 TeV |
CLIC_ILD |
3126 |
|
337200 |
846395.1* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> tautau (both γ from EPA) |
3 TeV |
CLIC_ILD |
3123 |
|
315100 |
154427.4* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> qqvv (both γ from BS) |
3 TeV |
CLIC_ILD |
3204 |
|
19750 |
9.56* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> qqvv (first γ from BS, second γ from EPA) |
3 TeV |
CLIC_ILD |
3201 |
|
19500 |
2.03* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> qqvv (first γ from EPA, second γ from BS) |
3 TeV |
CLIC_ILD |
3198 |
|
19750 |
2.03* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> qqvv (both γ from EPA) |
3 TeV |
CLIC_ILD |
3195 |
|
19250 |
0.345* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> qqee (both γ from BS) |
3 TeV |
CLIC_ILD |
3216 |
|
18250 |
208.6* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> qqee (first γ from BS, second γ from EPA) |
3 TeV |
CLIC_ILD |
3213 |
|
18050 |
45.3* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> qqee (first γ from EPA, second γ from BS) |
3 TeV |
CLIC_ILD |
3210 |
|
18150 |
45.4* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γγ -> qqee (both γ from EPA) |
3 TeV |
CLIC_ILD |
3207 |
|
19100 |
7.76* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
eγ -> tautaue (γ from BS) |
3 TeV |
CLIC_ILD |
3162 |
|
319750 |
72735.9* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γe -> tautaue (γ from BS) |
3 TeV |
CLIC_ILD |
3168 |
|
315100 |
72775.0* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
eγ -> tautaue (γ from EPA) |
3 TeV |
CLIC_ILD |
3159 |
|
312050 |
35874.3* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
γe -> tautaue (γ from EPA) |
3 TeV |
CLIC_ILD |
3165 |
|
320500 |
35858.8* |
m(h) = 12 TeV, preselection cuts for the H->tautau analysis |
ee->qqvv |
1.4 TeV |
CLIC_ILD |
3243 |
600000 |
577200 |
787.7 |
q=u,d,s,c,b, m(h) = 12 TeV |
ee->qqll |
1.4 TeV |
CLIC_ILD |
3246 |
2000000 |
2104400 |
2725.8 |
q=u,d,s,c,b, m(h) = 12 TeV |
ee->qqlv |
1.4 TeV |
CLIC_ILD |
3249 |
2000000 |
2043200 |
4309.7 |
q=u,d,s,c,b, m(h) = 12 TeV |
ee->e e mu mu nu nu |
1.4 TeV |
CLIC_ILD |
3263 |
3200 |
3900 |
1.59 |
m(h) = 12 TeV, nu = nu_mu |
γγ -> mu mu nu nu (both γ from EPA) |
1.4 TeV |
CLIC_ILD |
3266 |
14000 |
14900 |
5.61 |
m(h) = 12 TeV, nu = nu_mu |
γγ -> mu mu nu nu (first γ from EPA, second γ from BS) |
1.4 TeV |
CLIC_ILD |
3269 |
52000 |
56800 |
30.52 |
m(h) = 12 TeV, nu = nu_mu |
γγ -> mu mu nu nu (second γ from EPA, first γ from BS) |
1.4 TeV |
CLIC_ILD |
3272 |
52000 |
56300 |
30.36 |
m(h) = 12 TeV, nu = nu_mu |
γγ -> mu mu nu nu (both γ from BS) |
1.4 TeV |
CLIC_ILD |
3275 |
220000 |
241000 |
172.3 |
m(h) = 12 TeV, nu = nu_mu |
eγ -> e mu mu nu nu (γ from EPA) |
1.4 TeV |
CLIC_ILD |
3278 |
7000 |
10000 |
3.52 |
m(h) = 12 TeV, nu = nu_mu |
eγ -> e mu mu nu nu (γ from BS) |
1.4 TeV |
CLIC_ILD |
3281 |
25000 |
29600 |
15.28 |
m(h) = 12 TeV, nu = nu_mu |
γe -> e mu mu nu nu (γ from EPA) |
1.4 TeV |
CLIC_ILD |
3284 |
7000 |
9700 |
3.50 |
m(h) = 12 TeV, nu = nu_mu |
γe -> e mu mu nu nu (γ from BS) |
1.4 TeV |
CLIC_ILD |
3287 |
25000 |
29300 |
15.22 |
m(h) = 12 TeV, nu = nu_mu |
ee -> e e mu mu |
1.4 TeV |
CLIC_ILD |
3290 |
48000 |
58500 |
24.47 |
m(h) = 12 TeV, 100 GeV < m(mu,mu) < 150 GeV, 8° < θ(mu) < 172° |
eγ -> e mu mu (γ from EPA) |
1.4 TeV |
CLIC_ILD |
3306 |
170000 |
194200 |
217.3 |
m(h) = 12 TeV, 100 GeV < m(mu,mu) < 150 GeV, 8° < θ(mu) < 172° |
eγ -> e mu mu (γ from BS) |
1.4 TeV |
CLIC_ILD |
3309 |
486000 |
572400 |
330.7 |
m(h) = 12 TeV, 100 GeV < m(mu,mu) < 150 GeV, 8° < θ(mu) < 172° |
γe -> e mu mu (γ from EPA) |
1.4 TeV |
CLIC_ILD |
3312 |
170000 |
192000 |
216.9 |
m(h) = 12 TeV, 100 GeV < m(mu,mu) < 150 GeV, 8° < θ(mu) < 172° |
γe -> e mu mu (γ from BS) |
1.4 TeV |
CLIC_ILD |
3315 |
486000 |
576300 |
333.3 |
m(h) = 12 TeV, 100 GeV < m(mu,mu) < 150 GeV, 8° < θ(mu) < 172° |
eγ -> qqqqe (γ from EPA) |
1.4 TeV |
CLIC_ILD |
3366 |
150000 |
129100 |
287.1 |
m(h) = 12 TeV |
eγ -> qqqqe (γ from BS) |
1.4 TeV |
CLIC_ILD |
3369 |
150000 |
126300 |
1160.7 |
m(h) = 12 TeV |
γe -> qqqqe (γ from EPA) |
1.4 TeV |
CLIC_ILD |
3372 |
150000 |
137400 |
286.9 |
m(h) = 12 TeV |
γe -> qqqqe (γ from BS) |
1.4 TeV |
CLIC_ILD |
3375 |
150000 |
120200 |
1156.3 |
m(h) = 12 TeV |
eγ -> qqqqnu (γ from EPA) |
1.4 TeV |
CLIC_ILD |
3378 |
150000 |
180100 |
32.6 |
m(h) = 12 TeV |
eγ -> qqqqnu (γ from BS) |
1.4 TeV |
CLIC_ILD |
3381 |
150000 |
175000 |
136.9 |
m(h) = 12 TeV |
γe -> qqqqnu (γ from EPA) |
1.4 TeV |
CLIC_ILD |
3384 |
150000 |
177800 |
32.6 |
m(h) = 12 TeV |
γe -> qqqqnu (γ from BS) |
1.4 TeV |
CLIC_ILD |
3387 |
150000 |
173800 |
136.4 |
m(h) = 12 TeV |
γγ -> qqqq (both γ from EPA) |
1.4 TeV |
CLIC_ILD |
3414 |
150000 |
167300 |
753.0 |
m(h) = 12 TeV, m(qqqq) > 50 GeV |
γγ -> qqqq (first γ from EPA, second γ from BS) |
1.4 TeV |
CLIC_ILD |
3417 |
150000 |
167900 |
4034.8 |
m(h) = 12 TeV, m(qqqq) > 50 GeV |
γγ -> qqqq (first γ from BS, second γ from EPA) |
1.4 TeV |
CLIC_ILD |
3420 |
150000 |
170700 |
4018.7 |
m(h) = 12 TeV, m(qqqq) > 50 GeV |
γγ -> qqqq (both γ from BS) |
1.4 TeV |
CLIC_ILD |
3423 |
150000 |
159800 |
21406.2 |
m(h) = 12 TeV, m(qqqq) > 50 GeV |
γγ -> qq (both γ from EPA) |
1.4 TeV |
CLIC_ILD |
3426 |
500000 |
472100 |
3439.0 |
m(h) = 12 TeV, m(qq) > 50 GeV |
γγ -> qq (first γ from EPA, second γ from BS) |
1.4 TeV |
CLIC_ILD |
3429 |
500000 |
470100 |
17505.8 |
m(h) = 12 TeV, m(qq) > 50 GeV |
γγ -> qq (first γ from BS, second γ from EPA) |
1.4 TeV |
CLIC_ILD |
3432 |
500000 |
471600 |
17494.4 |
m(h) = 12 TeV, m(qq) > 50 GeV |
γγ -> qq (both γ from BS) |
1.4 TeV |
CLIC_ILD |
3435 |
500000 |
470800 |
73599.4 |
m(h) = 12 TeV, m(qq) > 50 GeV |
eγ -> qqnu (γ from EPA) |
1.4 TeV |
CLIC_ILD |
3438 |
150000 |
148400 |
4019.9 |
m(h) = 12 TeV, m(qq) > 50 GeV |
eγ -> qqnu (γ from BS) |
1.4 TeV |
CLIC_ILD |
3441 |
150000 |
148800 |
14408.0 |
m(h) = 12 TeV, m(qq) > 50 GeV |
γe -> qqnu (γ from EPA) |
1.4 TeV |
CLIC_ILD |
3444 |
150000 |
150200 |
4095.6 |
m(h) = 12 TeV |
γe -> qqnu (γ from BS) |
1.4 TeV |
CLIC_ILD |
3447 |
150000 |
163400 |
14602.7 |
m(h) = 12 TeV |
eγ -> qqe (γ from EPA) |
1.4 TeV |
CLIC_ILD |
3450 |
150000 |
184200 |
2806.3 |
m(h) = 12 TeV, m(qq) > 50 GeV |
eγ -> qqe (γ from BS) |
1.4 TeV |
CLIC_ILD |
3453 |
150000 |
173100 |
7518.0 |
m(h) = 12 TeV, m(qq) > 50 GeV |
γe -> qqe (γ from EPA) |
1.4 TeV |
CLIC_ILD |
3456 |
150000 |
168500 |
16152.7 |
m(h) = 12 TeV |
γe -> qqe (γ from BS) |
1.4 TeV |
CLIC_ILD |
3459 |
150000 |
160700 |
37362.8 |
m(h) = 12 TeV |
γe -> qqnu (γ from EPA) |
1.4 TeV |
CLIC_ILD |
3468 |
150000 |
191200 |
4020.1 |
m(h) = 12 TeV, m(qq) > 50 GeV |
γe -> qqnu (γ from BS) |
1.4 TeV |
CLIC_ILD |
3471 |
150000 |
191300 |
14384.4 |
m(h) = 12 TeV, m(qq) > 50 GeV |
γe -> qqe (γ from EPA) |
1.4 TeV |
CLIC_ILD |
3480 |
150000 |
191000 |
2806.3 |
m(h) = 12 TeV, m(qq) > 50 GeV |
γe -> qqe (γ from BS) |
1.4 TeV |
CLIC_ILD |
3483 |
150000 |
189800 |
7530.4 |
m(h) = 12 TeV, m(qq) > 50 GeV |
ee -> vvllgamma |
1.4 TeV |
CLIC_SiD |
3492 |
2000000 |
1947000 |
187.3* |
m(h) = 12 TeV, m(ll) > 50 GeV, 8° < θ(l) < 172°, preselection cuts for the h->Zgamma analysis |
γγ -> qqee (both γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3507 |
10000 |
16700 |
0.17 |
m(h) = 12 TeV, m(qq) > 50 GeV, E(e) > 75 GeV |
γγ -> qqee (first γ from EPA/noISR, second γ from BS) |
1.4 TeV |
CLIC_ILD |
3510 |
10000 |
19200 |
0.80 |
m(h) = 12 TeV, m(qq) > 50 GeV, E(e) > 75 GeV |
γγ -> qqee (first γ from BS, second γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3513 |
10000 |
19300 |
0.80 |
m(h) = 12 TeV, m(qq) > 50 GeV, E(e) > 75 GeV |
γγ -> qqee (both γ from BS) |
1.4 TeV |
CLIC_ILD |
3516 |
10000 |
16100 |
4.21 |
m(h) = 12 TeV, m(qq) > 50 GeV, E(e) > 75 GeV |
γγ -> qq (both γ from EPA/noISR) |
1.4 TeV |
CLIC_SiD |
3633 |
100000 |
96600 |
3495.4 |
WHIZARD V54, m(h) = 12 TeV, m(qq) > 50 GeV |
γγ -> qq (first γ from EPA/noISR, second γ from BS) |
1.4 TeV |
CLIC_SiD |
3636 |
100000 |
95200 |
17335.4 |
WHIZARD V54, m(h) = 12 TeV, m(qq) > 50 GeV |
γγ -> qq (first γ from BS, second γ from EPA/noISR) |
1.4 TeV |
CLIC_SiD |
3639 |
100000 |
97200 |
17328.0 |
WHIZARD V54, m(h) = 12 TeV, m(qq) > 50 GeV |
γγ -> qq (both γ from BS) |
1.4 TeV |
CLIC_SiD |
3642 |
100000 |
96500 |
73600.5 |
WHIZARD V54, m(h) = 12 TeV, m(qq) > 50 GeV |
γγ -> qq (both γ from EPA/noISR) |
3 TeV |
CLIC_SiD |
3645 |
100000 |
71000 |
4228.2 |
WHIZARD V54, m(h) = 12 TeV, m(qq) > 50 GeV |
γγ -> qq (first γ from EPA/noISR, second γ from BS) |
3 TeV |
CLIC_SiD |
3648 |
100000 |
81700 |
21893.8 |
WHIZARD V54, m(h) = 12 TeV, m(qq) > 50 GeV |
γγ -> qq (first γ from BS, second γ from EPA/noISR) |
3 TeV |
CLIC_SiD |
3651 |
100000 |
79500 |
21888.7 |
WHIZARD V54, m(h) = 12 TeV, m(qq) > 50 GeV |
γγ -> qq (both γ from BS) |
3 TeV |
CLIC_SiD |
3654 |
100000 |
91100 |
77365.9 |
WHIZARD V54, m(h) = 12 TeV, m(qq) > 50 GeV |
γγ -> qqqq (both γ from EPA) |
1.4 TeV |
CLIC_SiD |
3661 |
100000 |
88600 |
187.5 |
WHIZARD V54, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
γγ -> qqqq (first γ from EPA, second γ from BS) |
1.4 TeV |
CLIC_SiD |
3664 |
100000 |
85000 |
991.0 |
WHIZARD V54, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
γγ -> qqqq (first γ from BS, second γ from EPA) |
1.4 TeV |
CLIC_SiD |
3667 |
100000 |
86500 |
986.1 |
WHIZARD V54, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
γγ -> qqqq (both γ from BS) |
1.4 TeV |
CLIC_SiD |
3670 |
100000 |
85100 |
5489.9 |
WHIZARD V54, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
γγ -> qqqq (both γ from EPA) |
3 TeV |
CLIC_SiD |
3673 |
100000 |
66000 |
402.7 |
WHIZARD V54, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
γγ -> qqqq (first γ from EPA, second γ from BS) |
3 TeV |
CLIC_SiD |
3676 |
100000 |
89500 |
2422.8 |
WHIZARD V54, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
γγ -> qqqq (first γ from BS, second γ from EPA) |
3 TeV |
CLIC_SiD |
3679 |
100000 |
98400 |
2420.7 |
WHIZARD V54, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
γγ -> qqqq (both γ from BS) |
3 TeV |
CLIC_SiD |
3682 |
100000 |
119800 |
13050.2 |
WHIZARD V54, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
γγ -> mu mu nu nu (both γ from EPA/noISR) |
3 TeV |
CLIC_SiD |
3788 |
50000 |
48600 |
12.7 |
WHIZARD V55, m(h) = 12 TeV, nu = nu_mu |
γγ -> mu mu nu nu (first γ from EPA/noISR, second γ from BS) |
3 TeV |
CLIC_SiD |
3791 |
100000 |
101300 |
76.1 |
WHIZARD V55, m(h) = 12 TeV, nu = nu_mu |
γγ -> mu mu nu nu (second γ from EPA/noISR, first γ from BS) |
3 TeV |
CLIC_SiD |
3794 |
100000 |
103100 |
76.0 |
WHIZARD V55, m(h) = 12 TeV, nu = nu_mu |
γγ -> mu mu nu nu (both γ from BS) |
3 TeV |
CLIC_SiD |
3797 |
400000 |
380300 |
409.8 |
WHIZARD V55, m(h) = 12 TeV, nu = nu_mu |
eγ -> e mu mu nu nu (γ from EPA/noISR) |
3 TeV |
CLIC_SiD |
3800 |
60000 |
52400 |
8.7 |
WHIZARD V55, m(h) = 12 TeV, nu = nu_mu |
eγ -> e mu mu nu nu (γ from BS) |
3 TeV |
CLIC_SiD |
3803 |
100000 |
96500 |
38.3 |
WHIZARD V55, m(h) = 12 TeV, nu = nu_mu |
γe -> e mu mu nu nu (γ from EPA/noISR) |
3 TeV |
CLIC_SiD |
3806 |
60000 |
57100 |
8.7 |
WHIZARD V55, m(h) = 12 TeV, nu = nu_mu |
γe -> e mu mu nu nu (γ from BS) |
3 TeV |
CLIC_SiD |
3809 |
100000 |
93800 |
38.2 |
WHIZARD V55, m(h) = 12 TeV, nu = nu_mu |
eγ -> e mu mu (γ from EPA/noISR) |
3 TeV |
CLIC_SiD |
3812 |
400000 |
184700 |
310.4 |
WHIZARD V55, m(h) = 12 TeV, 100 GeV < m(mu,mu) < 150 GeV, 8° < θ(mu) < 172° |
eγ -> e mu mu (γ from BS) |
3 TeV |
CLIC_SiD |
3815 |
500000 |
630900 |
335.2 |
WHIZARD V55, m(h) = 12 TeV, 100 GeV < m(mu,mu) < 150 GeV, 8° < θ(mu) < 172° |
γe -> e mu mu (γ from EPA/noISR) |
3 TeV |
CLIC_SiD |
3818 |
400000 |
183200 |
309.1 |
WHIZARD V55, m(h) = 12 TeV, 100 GeV < m(mu,mu) < 150 GeV, 8° < θ(mu) < 172° |
γe -> e mu mu (γ from BS) |
3 TeV |
CLIC_SiD |
3821 |
500000 |
640500 |
336.6 |
WHIZARD V55, m(h) = 12 TeV, 100 GeV < m(mu,mu) < 150 GeV, 8° < θ(mu) < 172° |
eγ -> qqe (γ from EPA/noISR) |
1.4 TeV |
CLIC_SiD |
3758 |
100000 |
96200 |
2664.5 |
WHIZARD V55, m(h) = 12 TeV, m(qq) > 50 GeV |
eγ -> qqe (γ from BS) |
1.4 TeV |
CLIC_SiD |
3761 |
100000 |
96500 |
7517.2 |
WHIZARD V55, m(h) = 12 TeV, m(qq) > 50 GeV |
γe -> qqe (γ from EPA/noISR) |
1.4 TeV |
CLIC_SiD |
3764 |
100000 |
96600 |
2664.6 |
WHIZARD V55, m(h) = 12 TeV, m(qq) > 50 GeV |
γe -> qqe (γ from BS) |
1.4 TeV |
CLIC_SiD |
3767 |
100000 |
95800 |
7529.5 |
WHIZARD V55, m(h) = 12 TeV, m(qq) > 50 GeV |
eγ -> qqe (γ from EPA/noISR) |
3 TeV |
CLIC_SiD |
3770 |
100000 |
58700 |
3525.2 |
WHIZARD V55, m(h) = 12 TeV, m(qq) > 50 GeV |
eγ -> qqe (γ from BS) |
3 TeV |
CLIC_SiD |
3773 |
100000 |
83000 |
8530.8 |
WHIZARD V55, m(h) = 12 TeV, m(qq) > 50 GeV |
γe -> qqe (γ from EPA/noISR) |
3 TeV |
CLIC_SiD |
3776 |
100000 |
58100 |
3523.4 |
WHIZARD V55, m(h) = 12 TeV, m(qq) > 50 GeV |
γe -> qqe (γ from BS) |
3 TeV |
CLIC_SiD |
3779 |
100000 |
84600 |
8533.2 |
WHIZARD V55, m(h) = 12 TeV, m(qq) > 50 GeV |
eγ -> qqnu (γ from EPA/noISR) |
1.4 TeV |
CLIC_SiD |
3848 |
100000 |
93400 |
3874.6 |
WHIZARD V55, m(h) = 12 TeV, m(qq) > 50 GeV |
eγ -> qqnu (γ from BS) |
1.4 TeV |
CLIC_SiD |
3851 |
100000 |
90400 |
14407.9 |
WHIZARD V55, m(h) = 12 TeV, m(qq) > 50 GeV |
γe -> qqnu (γ from EPA/noISR) |
1.4 TeV |
CLIC_SiD |
3854 |
100000 |
92600 |
3875.1 |
WHIZARD V55, m(h) = 12 TeV, m(qq) > 50 GeV |
γe -> qqnu (γ from BS) |
1.4 TeV |
CLIC_SiD |
3857 |
100000 |
95900 |
14384.0 |
WHIZARD V55, m(h) = 12 TeV, m(qq) > 50 GeV |
eγ -> qqnu (γ from EPA/noISR) |
3 TeV |
CLIC_SiD |
3836 |
100000 |
70300 |
6417.5 |
WHIZARD V55, m(h) = 12 TeV, m(qq) > 50 GeV |
eγ -> qqnu (γ from BS) |
3 TeV |
CLIC_SiD |
3839 |
100000 |
93400 |
21234.9 |
WHIZARD V55, m(h) = 12 TeV, m(qq) > 50 GeV |
γe -> qqnu (γ from EPA/noISR) |
3 TeV |
CLIC_SiD |
3842 |
100000 |
63100 |
6414.1 |
WHIZARD V55, m(h) = 12 TeV, m(qq) > 50 GeV |
γe -> qqnu (γ from BS) |
3 TeV |
CLIC_SiD |
3845 |
100000 |
92900 |
21230.6 |
WHIZARD V55, m(h) = 12 TeV, m(qq) > 50 GeV |
γγ -> tautaull (both γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3872 |
20000 |
22600 |
24.9* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_taus_1400.txt") |
γγ -> tautaull (first γ from EPA/noISR, second γ from BS) |
1.4 TeV |
CLIC_ILD |
3875 |
50000 |
46800 |
127.5* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_taus_1400.txt") |
γγ -> tautaull (first γ from BS, second γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3878 |
50000 |
48600 |
127.2* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_taus_1400.txt") |
γγ -> tautaull (both γ from BS) |
1.4 TeV |
CLIC_ILD |
3881 |
100000 |
123600 |
625.4* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_taus_1400.txt") |
γγ -> tautauvv (both γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3896 |
20000 |
19550 |
5.63* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_taus_1400.txt") |
γγ -> tautauvv (first γ from EPA/noISR, second γ from BS) |
1.4 TeV |
CLIC_ILD |
3899 |
50000 |
46000 |
29.7* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_taus_1400.txt") |
γγ -> tautauvv (first γ from BS, second γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3902 |
50000 |
50050 |
29.6* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_taus_1400.txt") |
γγ -> tautauvv (both γ from BS) |
1.4 TeV |
CLIC_ILD |
3905 |
100000 |
93900 |
164.7* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_taus_1400.txt") |
eγ -> eqq (γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3908 |
200000 |
215600 |
15512.2* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_quarks_1400.txt") |
eγ -> eqq (γ from BS) |
1.4 TeV |
CLIC_ILD |
3911 |
200000 |
213350 |
37309.8* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_quarks_1400.txt") |
γe -> eqq (γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3914 |
200000 |
218000 |
15511.4* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_quarks_1400.txt") |
γe -> eqq (γ from BS) |
1.4 TeV |
CLIC_ILD |
3917 |
200000 |
214750 |
37362.3* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_quarks_1400.txt") |
eγ -> qqvve (γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3932 |
20000 |
27300 |
3.33* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_quarks_1400.txt") |
eγ -> qqvve (γ from BS) |
1.4 TeV |
CLIC_ILD |
3935 |
20000 |
25750 |
15.1* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_quarks_1400.txt") |
γe -> qqvve (γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3938 |
20000 |
22200 |
3.33* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_quarks_1400.txt") |
γe -> qqvve (γ from BS) |
1.4 TeV |
CLIC_ILD |
3941 |
20000 |
24700 |
15.0* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_quarks_1400.txt") |
γγ -> tautau (both γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3944 |
300000 |
325350 |
185645.1* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_taus_1400.txt") |
γγ -> tautau (first γ from EPA/noISR, second γ from BS) |
1.4 TeV |
CLIC_ILD |
3947 |
300000 |
322100 |
905918.4* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_taus_1400.txt") |
γγ -> tautau (first γ from BS, second γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3950 |
300000 |
329800 |
906645.7* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_taus_1400.txt") |
γγ -> tautau (both γ from BS) |
1.4 TeV |
CLIC_ILD |
3953 |
300000 |
323000 |
2522839.0* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_taus_1400.txt") |
γγ -> qqvv (both γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3956 |
5000 |
5600 |
0.21* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_quarks_1400.txt") |
γγ -> qqvv (first γ from EPA/noISR, second γ from BS) |
1.4 TeV |
CLIC_ILD |
3959 |
10000 |
11150 |
1.11* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_quarks_1400.txt") |
γγ -> qqvv (first γ from BS, second γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3962 |
10000 |
9400 |
1.10* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_quarks_1400.txt") |
γγ -> qqvv (both γ from BS) |
1.4 TeV |
CLIC_ILD |
3965 |
20000 |
27200 |
5.86* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_quarks_1400.txt") |
γγ -> qqee (both γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3968 |
20000 |
20800 |
4.93* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_quarks_1400.txt") |
γγ -> qqee (first γ from EPA/noISR, second γ from BS) |
1.4 TeV |
CLIC_ILD |
3971 |
20000 |
23700 |
25.3* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_quarks_1400.txt") |
γγ -> qqee (first γ from BS, second γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3974 |
20000 |
21250 |
25.2* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_quarks_1400.txt") |
γγ -> qqee (both γ from BS) |
1.4 TeV |
CLIC_ILD |
3977 |
20000 |
198850 |
124.2* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_quarks_1400.txt") |
eγ -> tautaue (γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3980 |
200000 |
199000 |
27807.2* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_taus_1400.txt") |
eγ -> tautaue (γ from BS) |
1.4 TeV |
CLIC_ILD |
3983 |
200000 |
199300 |
67154.0* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_taus_1400.txt") |
γe -> tautaue (γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
3986 |
200000 |
202050 |
27807.5* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_taus_1400.txt") |
γe -> tautaue (γ from BS) |
1.4 TeV |
CLIC_ILD |
3989 |
200000 |
201150 |
67214.6* |
WHIZARD V55, m(h) = 12 TeV, preselection cuts for the H->tautau analysis ("cuts_taus_1400.txt") |
ee -> mumuvv |
3 TeV |
CLIC_SiD |
3995 |
30000 |
38300 |
3.69 |
WHIZARD V55, m(h) = 12 TeV, 100 GeV < m(mu,mu) < 150 GeV |
ee -> mumuee |
3 TeV |
CLIC_SiD |
3992 |
350000 |
380600 |
29.6 |
WHIZARD V55, m(h) = 12 TeV, 100 GeV < m(mu,mu) < 150 GeV, 8° < θ(mu) < 172° |
ee -> mumu |
3 TeV |
CLIC_SiD |
3998 |
30000 |
32300 |
4.53 |
WHIZARD V55, m(h) = 12 TeV, 100 GeV < m(mu,mu) < 150 GeV, 8° < θ(mu) < 172° |
ee -> qqqq |
350 GeV |
CLIC_ILD |
4031 |
1500000 |
1477000 |
5527.3 |
WHIZARD V55, m(h) = 12 TeV, alpha_s = 1e-6 |
ee -> qqqq |
1.4 TeV |
CLIC_ILD |
4034 |
500000 |
591800 |
1245.1 |
WHIZARD V55, m(h) = 12 TeV, alpha_s = 1e-6 |
ee -> qqqq |
420 GeV |
CLIC_ILD |
4206 |
1500000 |
1980500 |
4664.0 |
WHIZARD V55, m(h) = 12 TeV, alpha_s = 1e-6, 500 GeV lumi spectrum scaled, 0.17 γγ -> had. / BX |
ee -> qq |
420 GeV |
CLIC_ILD |
4209 |
2000000 |
2494500 |
18442.9 |
WHIZARD V55, m(h) = 12 TeV, 500 GeV lumi spectrum scaled, 0.17 γγ -> had. / BX |
ee -> qqlv |
420 GeV |
CLIC_ILD |
4212 |
1500000 |
1991000 |
5291.3 |
WHIZARD V55, m(h) = 12 TeV, 500 GeV lumi spectrum scaled, 0.17 γγ -> had. / BX |
ee -> qqll |
420 GeV |
CLIC_ILD |
4215 |
500000 |
748500 |
1823.2 |
WHIZARD V55, m(h) = 12 TeV, 500 GeV lumi spectrum scaled, 0.17 γγ -> had. / BX |
ee -> qqvv |
420 GeV |
CLIC_ILD |
4218 |
300000 |
497000 |
329.1 |
WHIZARD V55, m(h) = 12 TeV, 500 GeV lumi spectrum scaled, 0.17 γγ -> had. / BX |
γγ -> qqll (both γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
4266 |
100000 |
115000 |
567.9 |
WHIZARD V55, m(h) = 12 TeV, q=u,d,s,c,b, l=e,mu,tau, m(q,q,l,l) > 50 GeV |
γγ -> qqll (first γ from EPA/noISR, second γ from BS) |
1.4 TeV |
CLIC_ILD |
4269 |
100000 |
112400 |
2900.8 |
WHIZARD V55, m(h) = 12 TeV, q=u,d,s,c,b, l=e,mu,tau, m(q,q,l,l) > 50 GeV |
γγ -> qqll (first γ from BS, second γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
4272 |
100000 |
112400 |
2894.5 |
WHIZARD V55, m(h) = 12 TeV, q=u,d,s,c,b, l=e,mu,tau, m(q,q,l,l) > 50 GeV |
γγ -> qqll (both γ from BS) |
1.4 TeV |
CLIC_ILD |
4275 |
100000 |
212900 |
13930.2 |
WHIZARD V55, m(h) = 12 TeV, q=u,d,s,c,b, l=e,mu,tau, m(q,q,l,l) > 50 GeV |
ee -> qq |
250 GeV |
CLIC_ILD |
4284 |
2000000 |
2499000 |
50994.5 |
WHIZARD V55, m(h) = 126 GeV, 350 GeV lumi spectrum scaled, no overlay |
ee -> qqlv |
250 GeV |
CLIC_ILD |
4299 |
1500000 |
1747500 |
7417.8 |
WHIZARD V55, m(h) = 126 GeV, 350 GeV lumi spectrum scaled, no overlay |
ee -> qqqq |
250 GeV |
CLIC_ILD |
4290 |
2000000 |
2483500 |
7405.8 |
WHIZARD V55, alpha_s = 1e-6, m(h) = 126 GeV, 350 GeV lumi spectrum scaled, no overlay |
ee -> qqll |
250 GeV |
CLIC_ILD |
4293 |
500000 |
598500 |
1483.2 |
WHIZARD V55, m(h) = 126 GeV, 350 GeV lumi spectrum scaled, no overlay |
ee -> qqvv |
250 GeV |
CLIC_ILD |
4296 |
300000 |
398500 |
363.9 |
WHIZARD V55, m(h) = 126 GeV, 350 GeV lumi spectrum scaled, no overlay |
ee -> bb |
350 GeV |
CLIC_ILD |
4388 |
2000000 |
1974000 |
4861.1 |
WHIZARD V55, m(b,b) > 50 GeV, m(h) = 12 TeV |
ee -> cc |
350 GeV |
CLIC_ILD |
4391 |
2000000 |
1999500 |
4886.8 |
WHIZARD V55, m(c,c) > 50 GeV, m(h) = 12 TeV |
ee -> eeff |
380 GeV |
CLIC_ILD |
4412 |
500000 |
586500 |
4720.9 |
WHIZARD V55, f=u,d,s,c,b,e,mu,tau,nu_e,nu_mu,nu_tau, m(e,e) > 20 GeV, m(h) = 12 TeV |
ee -> mumuff |
380 GeV |
CLIC_ILD |
4415 |
500000 |
593000 |
684.6 |
WHIZARD V55, f=u,d,s,c,b,e,mu,tau,nu_e,nu_mu,nu_tau, m(mu,mu) > 20 GeV, m(h) = 12 TeV |
ee -> qq |
3 TeV |
CLIC_ILD |
4586 |
200000 |
196400 |
2948.9 |
WHIZARD V57, q=u,d,s,c,b, m(h) = 12 TeV |
ee -> qqll |
350 GeV |
CLIC_ILD |
4625 |
2000000 |
1991500 |
1704.1 |
WHIZARD V57, m(h) = 12 TeV |
ee -> qq |
350 GeV |
CLIC_ILD |
4698 |
2000000 |
1996000 |
24405.4 |
WHIZARD V57, q = u,d,s,c,b, m(q,q) > 50 GeV, m(h) = 12 TeV |
ee -> qq |
350 GeV |
CLIC_ILD |
4701 |
500000 |
500000 |
24516.4 |
WHIZARD V57, no beam recoil, q = u,d,s,c,b, m(q,q) > 50 GeV, m(h) = 12 TeV |
ee -> mumuvv |
1.4 TeV |
CLIC_ILD |
4732 |
500000 |
500000 |
129.2 |
WHIZARD V57, v = nu_e, nu_mu, nu_tau, (h) = 12 TeV |
ee -> qq |
350 GeV |
CLIC_ILD |
4743 |
2000000 |
1992500 |
24406.6 |
like 4698, WHIZARD V57, q = u,d,s,c,b, m(q,q) > 50 GeV, m(h) = 12 TeV |
ee -> qqqqvv |
1.4 TeV |
CLIC_ILD |
5527 |
300000 |
335300 |
23.2 |
WHIZARD V57, q = u,d,s,c,b, m(q,q,q,q) > 50 GeV, m(h) = 12 TeV, alpha_s = 1e-6 |
ee -> qqqqll |
1.4 TeV |
CLIC_ILD |
5572 |
1000000 |
1101100 |
62.1 |
WHIZARD V57, q = u,d,s,c,b, m(q,q,q,q) > 50 GeV, m(h) = 12 TeV, alpha_s = 1e-6 |
ee -> qqqqlv |
1.4 TeV |
CLIC_ILD |
5594 |
500000 |
715200 |
110.4 |
WHIZARD V57, q = u,d,s,c,b, m(q,q,q,q) > 50 GeV, m(h) = 12 TeV, alpha_s = 1e-6 |
ee -> qqqqvv |
1.4 TeV |
CLIC_ILD |
6183 |
1000000 |
1103700 |
23.2 |
WHIZARD V57, q = u,d,s,c,b, m(q,q,q,q) > 50 GeV, m(h) = 12 TeV, alpha_s = 1e-6 |
ee -> qqqqlv |
1.4 TeV |
CLIC_ILD |
6191 |
1000000 |
1164100 |
110.4 |
WHIZARD V57, q = u,d,s,c,b, m(q,q,q,q) > 50 GeV, m(h) = 12 TeV, alpha_s = 1e-6 |
eγ -> qqqqv (γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
6497 |
150000 |
166000 |
17.3 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
eγ -> qqqqv (γ from BS) |
1.4 TeV |
CLIC_ILD |
6500 |
400000 |
413900 |
80.0 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
γe -> qqqqv (γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
6503 |
150000 |
166600 |
17.5 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
γe -> qqqqv (γ from BS) |
1.4 TeV |
CLIC_ILD |
6506 |
400000 |
407300 |
79.5 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
ee -> qqqqlv |
3 TeV |
CLIC_ILD |
6540 |
250000 |
990000 |
|
WHIZARD V57, q = u,d,s,c,b, m(q,q,q,q) > 50 GeV, m(h) = 12 TeV, alpha_s = 1e-6 |
ee -> qqqqlv |
3 TeV |
CLIC_SiD |
6546 |
250000 |
151450 |
|
WHIZARD V57, q = u,d,s,c,b, m(q,q,q,q) > 50 GeV, m(h) = 12 TeV, alpha_s = 1e-6 |
eγ -> qqqqv (γ from EPA/noISR) |
3 TeV |
CLIC_ILD |
6571 |
125000 |
138900 |
54.2 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
eγ -> qqqqv (γ from BS) |
3 TeV |
CLIC_ILD |
6574 |
500000 |
567000 |
262.5 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
γe -> qqqqv (γ from EPA/noISR) |
3 TeV |
CLIC_ILD |
6577 |
125000 |
138000 |
54.2 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
γe -> qqqqv (γ from BS) |
3 TeV |
CLIC_ILD |
6580 |
500000 |
571600 |
262.3 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
ee -> qqvv |
3 TeV |
CLIC_ILD |
6583 |
500000 |
575200 |
1317.5 |
WHIZARD V57, m(h) = 12 TeV |
ee -> qqvv |
1.4 TeV |
CLIC_SiD |
6700 |
2000000 |
2391000 |
787.7 |
WHIZARD V57, m(h) = 12 TeV |
γγ -> qqqq (both γ from EPA/noISR) |
3 TeV |
CLIC_ILD |
6721 |
100000 |
134700 |
402.7 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
γγ -> qqqq (first γ from EPA/noISR, second γ from BS) |
3 TeV |
CLIC_ILD |
6724 |
200000 |
268100 |
2423.1 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
γγ -> qqqq (first γ from BS, second γ from EPA/noISR) |
3 TeV |
CLIC_ILD |
6727 |
200000 |
273300 |
2420.6 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
γγ -> qqqq (both γ from BS) |
3 TeV |
CLIC_ILD |
6730 |
400000 |
509800 |
13050.3 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
eγ -> qqqqe (γ from EPA/noISR) |
3 TeV |
CLIC_ILD |
6733 |
60000 |
70300 |
287.8 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
eγ -> qqqqe (γ BS) |
3 TeV |
CLIC_ILD |
6736 |
100000 |
111800 |
1268.6 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
eγ -> qqqqe (γ from EPA/noISR) |
3 TeV |
CLIC_ILD |
6739 |
60000 |
70800 |
287.8 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
eγ -> qqqqe (γ BS) |
3 TeV |
CLIC_ILD |
6742 |
100000 |
114100 |
1267.3 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
ee -> qqlv |
3 TeV |
CLIC_ILD |
6747 |
2000000 |
2115000 |
5560.9 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV |
ee -> qqqqll |
3 TeV |
CLIC_ILD |
6754 |
500000 |
728900 |
169.3 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
ee -> qqqqvv |
3 TeV |
CLIC_ILD |
6751 |
500000 |
2091900 |
71.5 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
ee -> qqqq |
3 TeV |
CLIC_ILD |
6776 |
500000 |
3084200 |
546.5 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
ee -> qqhvv |
3 TeV |
CLIC_ILD |
6779 |
10000 |
14600 |
3.06 |
WHIZARD V57, q = u,d,s, m(h) = 126 GeV |
ee -> cchvv |
3 TeV |
CLIC_ILD |
6782 |
10000 |
14800 |
1.15 |
WHIZARD V57, m(h) = 126 GeV |
ee -> bbhvv |
3 TeV |
CLIC_ILD |
6785 |
10000 |
14900 |
1.78 |
WHIZARD V57, m(h) = 126 GeV |
ee -> qqhvv |
1.4 TeV |
CLIC_ILD |
6788 |
10000 |
15000 |
0.87 |
WHIZARD V57, q = u,d,s, m(h) = 126 GeV |
ee -> cchvv |
1.4 TeV |
CLIC_ILD |
6791 |
10000 |
15000 |
0.37 |
WHIZARD V57, m(h) = 126 GeV |
ee -> bbhvv |
1.4 TeV |
CLIC_ILD |
6794 |
10000 |
15000 |
0.48 |
WHIZARD V57, m(h) = 126 GeV |
eγ -> qqqqv (γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
6799 |
500000 |
587200 |
17.4 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 120 GeV, alpha_s = 1e-6 |
eγ -> qqqqv (γ from BS) |
1.4 TeV |
CLIC_ILD |
6802 |
500000 |
590000 |
79.8 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 120 GeV, alpha_s = 1e-6 |
γe -> qqqqv (γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
6805 |
500000 |
589300 |
17.3 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 120 GeV, alpha_s = 1e-6 |
γe -> qqqqv (γ from BS) |
1.4 TeV |
CLIC_ILD |
6808 |
500000 |
590000 |
79.3 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 120 GeV, alpha_s = 1e-6 |
ee -> qqhvv |
3 TeV |
CLIC_ILD |
6901 |
150000 |
197700 |
3.06 |
WHIZARD V57, q = u,d,s, m(h) = 126 GeV |
ee -> cchvv |
3 TeV |
CLIC_ILD |
6904 |
150000 |
197600 |
1.15 |
WHIZARD V57, m(h) = 126 GeV |
ee -> bbhvv |
3 TeV |
CLIC_ILD |
6907 |
150000 |
198000 |
1.78 |
WHIZARD V57, m(h) = 126 GeV |
ee -> qqhvv |
1.4 TeV |
CLIC_ILD |
6910 |
150000 |
197600 |
0.87 |
WHIZARD V57, q = u,d,s, m(h) = 126 GeV |
ee -> cchvv |
1.4 TeV |
CLIC_ILD |
6913 |
150000 |
198100 |
0.37 |
WHIZARD V57, m(h) = 126 GeV |
ee -> bbhvv |
1.4 TeV |
CLIC_ILD |
6916 |
150000 |
197900 |
0.48 |
WHIZARD V57, m(h) = 126 GeV |
eγ -> qqhv (γ from EPA/noISR) |
3 TeV |
CLIC_ILD |
6942 |
50000 |
58600 |
11.7 |
WHIZARD V57, m(qq) > 50 GeV, m(h) = 126 GeV |
eγ -> qqhv (γ from BS) |
3 TeV |
CLIC_ILD |
6945 |
200000 |
207700 |
58.6 |
WHIZARD V57, m(qq) > 50 GeV, m(h) = 126 GeV |
γe -> qqhv (γ from EPA/noISR) |
3 TeV |
CLIC_ILD |
6948 |
50000 |
58000 |
11.7 |
WHIZARD V57, m(qq) > 50 GeV, m(h) = 126 GeV |
γe -> qqhv (γ from BS) |
3 TeV |
CLIC_ILD |
6951 |
200000 |
209500 |
58.5 |
WHIZARD V57, m(qq) > 50 GeV, m(h) = 126 GeV |
eγ -> qqhv (γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
6954 |
10000 |
15000 |
3.39 |
WHIZARD V57, m(qq) > 50 GeV, m(h) = 126 GeV |
eγ -> qqhv (γ from BS) |
1.4 TeV |
CLIC_ILD |
6957 |
25000 |
30000 |
15.8 |
WHIZARD V57, m(qq) > 50 GeV, m(h) = 126 GeV |
γe -> qqhv (γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
6960 |
10000 |
15000 |
3.39 |
WHIZARD V57, m(qq) > 50 GeV, m(h) = 126 GeV |
γe -> qqhv (γ from BS) |
1.4 TeV |
CLIC_ILD |
6963 |
25000 |
30000 |
15.7 |
WHIZARD V57, m(qq) > 50 GeV, m(h) = 126 GeV |
ee -> qqγγ |
3 TeV |
CLIC_ILD |
6966 |
250000 |
299600 |
72.3 |
WHIZARD V57, m(h) = 12 TeV |
ee -> qqγ |
3 TeV |
CLIC_ILD |
6969 |
1000000 |
1198600 |
583.6 |
WHIZARD V57, m(h) = 12 TeV |
ee -> γvv |
3 TeV |
CLIC_ILD |
6981 |
150000 |
194900 |
16806.4* |
WHIZARD V57, m(h) = 12 TeV, preselection cuts for the H->gammagamma analysis ("cuts_h_gammagamma_3000.txt") |
ee -> γγee |
3 TeV |
CLIC_ILD |
6984 |
120000 |
144900 |
4244.7* |
WHIZARD V57, m(h) = 12 TeV, preselection cuts for the H->gammagamma analysis ("cuts_h_gammagamma_3000.txt") |
ee -> γγvv |
3 TeV |
CLIC_ILD |
7014 |
120000 |
155500 |
2616.6* |
WHIZARD V57, m(h) = 12 TeV, preselection cuts for the H->gammagamma analysis ("cuts_h_gammagamma_3000.txt") |
ee -> γγ |
3 TeV |
CLIC_ILD |
7017 |
20000 |
29900 |
866.9* |
WHIZARD V57, m(h) = 12 TeV, preselection cuts for the H->gammagamma analysis ("cuts_h_gammagamma_3000.txt") |
ee -> eeγ |
3 TeV |
CLIC_ILD |
7020 |
3000000 |
3039000 |
185392.3* |
WHIZARD V57, m(h) = 12 TeV, preselection cuts for the H->gammagamma analysis ("cuts_h_gammagamma_3000.txt") |
eγ -> qqhv (γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
6990 |
150000 |
199900 |
3.39 |
WHIZARD V57, m(qq) > 50 GeV, m(h) = 126 GeV |
eγ -> qqhv (γ from BS) |
1.4 TeV |
CLIC_ILD |
6993 |
300000 |
399400 |
15.8 |
WHIZARD V57, m(qq) > 50 GeV, m(h) = 126 GeV |
γe -> qqhv (γ from EPA/noISR) |
1.4 TeV |
CLIC_ILD |
6996 |
150000 |
199400 |
3.39 |
WHIZARD V57, m(qq) > 50 GeV, m(h) = 126 GeV |
γe -> qqhv (γ from BS) |
1.4 TeV |
CLIC_ILD |
6999 |
300000 |
399400 |
15.7 |
WHIZARD V57, m(qq) > 50 GeV, m(h) = 126 GeV |
γγ -> qqll (both γ from EPA/noISR) |
3 TeV |
CLIC_ILD |
7869 |
100000 |
119700 |
862.3 |
WHIZARD V57, m(h) = 12 TeV, q=u,d,s,c,b, l=e,mu,tau, m(q,q,l,l) > 50 GeV |
γγ -> qqll (first γ from EPA/noISR, second γ from BS) |
3 TeV |
CLIC_ILD |
7872 |
200000 |
239500 |
4801.8 |
WHIZARD V57, m(h) = 12 TeV, q=u,d,s,c,b, l=e,mu,tau, m(q,q,l,l) > 50 GeV |
γγ -> qqll (first γ from BS, second γ from EPA/noISR) |
3 TeV |
CLIC_ILD |
7875 |
200000 |
239200 |
4799.4 |
WHIZARD V57, m(h) = 12 TeV, q=u,d,s,c,b, l=e,mu,tau, m(q,q,l,l) > 50 GeV |
γγ -> qqll (both γ from BS) |
3 TeV |
CLIC_ILD |
7878 |
400000 |
477500 |
21480.8 |
WHIZARD V57, m(h) = 12 TeV, q=u,d,s,c,b, l=e,mu,tau, m(q,q,l,l) > 50 GeV |
γγ -> qq (both γ from EPA) |
3 TeV |
CLIC_ILD |
7893 |
100000 |
119900 |
4228.1 |
WHIZARD V57, m(h) = 12 TeV, m(qq) > 50 GeV |
γγ -> qq (first γ from EPA, second γ from BS) |
3 TeV |
CLIC_ILD |
7896 |
200000 |
239800 |
21891.1 |
WHIZARD V57, m(h) = 12 TeV, m(qq) > 50 GeV |
γγ -> qq (first γ from BS, second γ from EPA) |
3 TeV |
CLIC_ILD |
7899 |
200000 |
239900 |
21891.6 |
WHIZARD V57, m(h) = 12 TeV, m(qq) > 50 GeV |
γγ -> qq (both γ from BS) |
3 TeV |
CLIC_ILD |
7902 |
400000 |
479800 |
77366.8 |
WHIZARD V57, m(h) = 12 TeV, m(qq) > 50 GeV |
eγ -> qqe (γ from EPA/noISR) |
3 TeV |
CLIC_ILD |
7924 |
100000 |
119300 |
3525.5 |
WHIZARD V57, m(h) = 12 TeV, m(qq) > 50 GeV |
eγ -> qqe (γ from BS) |
3 TeV |
CLIC_ILD |
7927 |
100000 |
119200 |
8531.3 |
WHIZARD V57, m(h) = 12 TeV, m(qq) > 50 GeV |
γe -> qqe (γ from EPA/noISR) |
3 TeV |
CLIC_ILD |
7930 |
100000 |
119100 |
3523.8 |
WHIZARD V57, m(h) = 12 TeV, m(qq) > 50 GeV |
γe -> qqe (γ from BS) |
3 TeV |
CLIC_ILD |
7933 |
100000 |
119500 |
8534.5 |
WHIZARD V57, m(h) = 12 TeV, m(qq) > 50 GeV |
eγ -> qqv (γ from EPA/noISR) |
3 TeV |
CLIC_ILD |
7956 |
100000 |
119500 |
6417.3 |
WHIZARD V57, m(h) = 12 TeV, m(qq) > 50 GeV |
eγ -> qqv (γ from BS) |
3 TeV |
CLIC_ILD |
7959 |
200000 |
239400 |
21235.0 |
WHIZARD V57, m(h) = 12 TeV, m(qq) > 50 GeV |
γe -> qqv (γ from EPA/noISR) |
3 TeV |
CLIC_ILD |
7962 |
100000 |
119500 |
6414.6 |
WHIZARD V57, m(h) = 12 TeV, m(qq) > 50 GeV |
γe -> qqv (γ from BS) |
3 TeV |
CLIC_ILD |
7965 |
200000 |
239900 |
21231.3 |
WHIZARD V57, m(h) = 12 TeV, m(qq) > 50 GeV |
ee -> qqqqll |
350 GeV |
CLIC_ILD |
13030 |
50000 |
88400 |
4.47 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV, m(qqqq) > 50 GeV, alpha_s = 1e-6 |
ee -> qqlv |
3 TeV |
CLIC_ILD |
14338 |
4000000 |
4193500 |
5560.6 |
WHIZARD V57, q = u,d,s,c,b, m(h) = 12 TeV NEW |
ee -> qqll |
3 TeV |
CLIC_ILD |
14347 |
2000000 |
2099100 |
3143.7 |
WHIZARD V57, q = u,d,s,c,b, l=e,mu,tau, m(h) = 12 TeV NEW |
γγ -> qqll (both γ from EPA/noISR) |
3 TeV |
CLIC_ILD |
14350 |
250000 |
307400 |
862.3 |
WHIZARD V57, m(h) = 12 TeV, q=u,d,s,c,b, l=e,mu,tau, m(q,q,l,l) > 50 GeV NEW |
γγ -> qqll (first γ from EPA/noISR, second γ from BS) |
3 TeV |
CLIC_ILD |
14353 |
500000 |
603900 |
4802.3 |
WHIZARD V57, m(h) = 12 TeV, q=u,d,s,c,b, l=e,mu,tau, m(q,q,l,l) > 50 GeV NEW |
γγ -> qqll (first γ from BS, second γ from EPA/noISR) |
3 TeV |
CLIC_ILD |
14356 |
500000 |
603600 |
4799.7 |
WHIZARD V57, m(h) = 12 TeV, q=u,d,s,c,b, l=e,mu,tau, m(q,q,l,l) > 50 GeV NEW |
γγ -> qqll (both γ from BS) |
3 TeV |
CLIC_ILD |
14359 |
750000 |
996000 |
21480.6 |
WHIZARD V57, m(h) = 12 TeV, q=u,d,s,c,b, l=e,mu,tau, m(q,q,l,l) > 50 GeV NEW |
* = does not include the reduction factor due to the preselection cuts, but includes the effect of possible kinematic cuts in WHIZARD
. Some of the older samples should not be used any more due to outdated values of the SM Higgs mass or other issues. The table below contains a selection of samples without any known problems that can be used for the ongoing analyses.
The locations of the produced files can be found using the web interface available in the data menu on the DIRAC monitoring webpage. A Grid certificate is needed for this purpose. More information are available at this location:
.