data22_v1.2(_split_by_nEl)
flowchart TD
0["ee Region: 774120 (1548.2%) "]
1["2e: 763810 (98.7%) "]
0-->1
2["\>=2e: 10310 (1.3%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 51 (0.0%) "]
1-->3
4["1 DV w/m > 5 GeV: 7175 (0.9%) "]
1-->4
5["0 DV w/m>5 GeV: 756584 (99.1%) "]
1-->5
6["\> 1 DV w/m > 5 GeV: 1 (0.0%) "]
2-->6
7["1 DV w/m > 5 GeV: 106 (1.0%) "]
2-->7
8["0 DV w/m>5 GeV: 10203 (99.0%) "]
2-->8
9["\>=2 matched el: 0 (0.0%) "]
4-->9
10["1 matched el: 21 (0.3%) "]
4-->10
11["No matched el: 7154 (99.7%) "]
4-->11
12["\>=2 matched el: 0 (0.0%) "]
7-->12
13["1 matched el: 0 (0.0%) "]
7-->13
14["No matched el: 106 (100.0%) "]
7-->14
mS = 110, mZ_{d} = 30, #tau = 0.1ns(_split_by_nEl)
flowchart TD
0["ee Region: 5637 (11.3%) "]
1["2e: 2649 (47.0%) "]
0-->1
2["\>=2e: 2988 (53.0%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 195 (7.4%) S/sqrt(B) = 8.3"]
1-->3
4["1 DV w/m > 5 GeV: 1127 (42.5%) "]
1-->4
5["0 DV w/m>5 GeV: 1327 (50.1%) S/sqrt(B) = 1.5"]
1-->5
6["\> 1 DV w/m > 5 GeV: 554 (18.5%) S/sqrt(B) = 16.6"]
2-->6
7["1 DV w/m > 5 GeV: 1537 (51.4%) "]
2-->7
8["0 DV w/m>5 GeV: 897 (30.0%) S/sqrt(B) = 8.9"]
2-->8
9["\>=2 matched el: 297 (26.4%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 685 (60.8%) S/sqrt(B) = 17.9"]
4-->10
11["No matched el: 145 (12.9%) S/sqrt(B) = 1.7"]
4-->11
12["\>=2 matched el: 1166 (75.9%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 281 (18.3%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 90 (5.9%) S/sqrt(B) = 8.7"]
7-->14
mS = 110, mZ_{d} = 30, #tau = 0.5ns(_split_by_nEl)
flowchart TD
0["ee Region: 2893 (5.8%) "]
1["2e: 1788 (61.8%) "]
0-->1
2["\>=2e: 1105 (38.2%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 57 (3.2%) S/sqrt(B) = 3.6"]
1-->3
4["1 DV w/m > 5 GeV: 646 (36.1%) "]
1-->4
5["0 DV w/m>5 GeV: 1085 (60.7%) S/sqrt(B) = 1.2"]
1-->5
6["\> 1 DV w/m > 5 GeV: 130 (11.8%) S/sqrt(B) = 8.0"]
2-->6
7["1 DV w/m > 5 GeV: 552 (50.0%) "]
2-->7
8["0 DV w/m>5 GeV: 423 (38.3%) S/sqrt(B) = 4.2"]
2-->8
9["\>=2 matched el: 293 (45.4%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 289 (44.7%) S/sqrt(B) = 11.3"]
4-->10
11["No matched el: 64 (9.9%) S/sqrt(B) = 0.8"]
4-->11
12["\>=2 matched el: 433 (78.4%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 88 (15.9%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 31 (5.6%) S/sqrt(B) = 3.0"]
7-->14
mS = 110, mZ_{d} = 30, #tau = 10ns(_split_by_nEl)
flowchart TD
0["ee Region: 101 (0.2%) "]
1["2e: 96 (95.0%) "]
0-->1
2["\>=2e: 5 (5.0%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 1 (1.0%) S/sqrt(B) = 0.1"]
1-->3
4["1 DV w/m > 5 GeV: 40 (41.7%) "]
1-->4
5["0 DV w/m>5 GeV: 55 (57.3%) S/sqrt(B) = 0.1"]
1-->5
6["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
2-->6
7["1 DV w/m > 5 GeV: 3 (60.0%) "]
2-->7
8["0 DV w/m>5 GeV: 2 (40.0%) S/sqrt(B) = 0.0"]
2-->8
9["\>=2 matched el: 34 (85.0%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 3 (7.5%) S/sqrt(B) = 0.5"]
4-->10
11["No matched el: 3 (7.5%) S/sqrt(B) = 0.0"]
4-->11
12["\>=2 matched el: 2 (66.7%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 0 (0.0%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 1 (33.3%) S/sqrt(B) = 0.1"]
7-->14
mS = 110, mZ_{d} = 30, #tau = 2ns(_split_by_nEl)
flowchart TD
0["ee Region: 768 (1.5%) "]
1["2e: 564 (73.4%) "]
0-->1
2["\>=2e: 204 (26.6%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 8 (1.4%) S/sqrt(B) = 0.8"]
1-->3
4["1 DV w/m > 5 GeV: 204 (36.2%) "]
1-->4
5["0 DV w/m>5 GeV: 352 (62.4%) S/sqrt(B) = 0.4"]
1-->5
6["\> 1 DV w/m > 5 GeV: 22 (10.8%) S/sqrt(B) = 3.2"]
2-->6
7["1 DV w/m > 5 GeV: 93 (45.6%) "]
2-->7
8["0 DV w/m>5 GeV: 89 (43.6%) S/sqrt(B) = 0.9"]
2-->8
9["\>=2 matched el: 129 (63.2%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 55 (27.0%) S/sqrt(B) = 4.2"]
4-->10
11["No matched el: 20 (9.8%) S/sqrt(B) = 0.2"]
4-->11
12["\>=2 matched el: 80 (86.0%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 9 (9.7%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 4 (4.3%) S/sqrt(B) = 0.4"]
7-->14
mS = 200, mZ_{d} = 10, #tau = 0.1ns(_split_by_nEl)
flowchart TD
0["ee Region: 3380 (6.8%) "]
1["2e: 2263 (67.0%) "]
0-->1
2["\>=2e: 1117 (33.0%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 148 (6.5%) S/sqrt(B) = 7.0"]
1-->3
4["1 DV w/m > 5 GeV: 1012 (44.7%) "]
1-->4
5["0 DV w/m>5 GeV: 1103 (48.7%) S/sqrt(B) = 1.3"]
1-->5
6["\> 1 DV w/m > 5 GeV: 166 (14.9%) S/sqrt(B) = 9.0"]
2-->6
7["1 DV w/m > 5 GeV: 554 (49.6%) "]
2-->7
8["0 DV w/m>5 GeV: 397 (35.5%) S/sqrt(B) = 3.9"]
2-->8
9["\>=2 matched el: 601 (59.4%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 245 (24.2%) S/sqrt(B) = 10.3"]
4-->10
11["No matched el: 166 (16.4%) S/sqrt(B) = 2.0"]
4-->11
12["\>=2 matched el: 378 (68.2%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 123 (22.2%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 53 (9.6%) S/sqrt(B) = 5.1"]
7-->14
mS = 200, mZ_{d} = 10, #tau = 0.5ns(_split_by_nEl)
flowchart TD
0["ee Region: 766 (1.5%) "]
1["2e: 655 (85.5%) "]
0-->1
2["\>=2e: 111 (14.5%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 10 (1.5%) S/sqrt(B) = 1.0"]
1-->3
4["1 DV w/m > 5 GeV: 291 (44.4%) "]
1-->4
5["0 DV w/m>5 GeV: 354 (54.0%) S/sqrt(B) = 0.4"]
1-->5
6["\> 1 DV w/m > 5 GeV: 14 (12.6%) S/sqrt(B) = 2.5"]
2-->6
7["1 DV w/m > 5 GeV: 43 (38.7%) "]
2-->7
8["0 DV w/m>5 GeV: 54 (48.6%) S/sqrt(B) = 0.5"]
2-->8
9["\>=2 matched el: 218 (74.9%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 32 (11.0%) S/sqrt(B) = 2.9"]
4-->10
11["No matched el: 41 (14.1%) S/sqrt(B) = 0.5"]
4-->11
12["\>=2 matched el: 36 (83.7%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 6 (14.0%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 1 (2.3%) S/sqrt(B) = 0.1"]
7-->14
mS = 200, mZ_{d} = 10, #tau = 10ns(_split_by_nEl)
flowchart TD
0["ee Region: 35 (0.1%) "]
1["2e: 35 (100.0%) "]
0-->1
2["\>=2e: 0 (0.0%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
1-->3
4["1 DV w/m > 5 GeV: 13 (37.1%) "]
1-->4
5["0 DV w/m>5 GeV: 22 (62.9%) S/sqrt(B) = 0.0"]
1-->5
6["\> 1 DV w/m > 5 GeV: 0 (-nan%) S/sqrt(B) = -nan"]
2-->6
7["1 DV w/m > 5 GeV: 0 (-nan%) "]
2-->7
8["0 DV w/m>5 GeV: 0 (-nan%) S/sqrt(B) = 0.0"]
2-->8
9["\>=2 matched el: 11 (84.6%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 1 (7.7%) S/sqrt(B) = 0.2"]
4-->10
11["No matched el: 1 (7.7%) S/sqrt(B) = 0.0"]
4-->11
12["\>=2 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 0 (-nan%) S/sqrt(B) = 0.0"]
7-->14
mS = 200, mZ_{d} = 10, #tau = 2ns(_split_by_nEl)
flowchart TD
0["ee Region: 200 (0.4%) "]
1["2e: 191 (95.5%) "]
0-->1
2["\>=2e: 9 (4.5%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 2 (1.0%) S/sqrt(B) = 0.2"]
1-->3
4["1 DV w/m > 5 GeV: 75 (39.3%) "]
1-->4
5["0 DV w/m>5 GeV: 114 (59.7%) S/sqrt(B) = 0.1"]
1-->5
6["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
2-->6
7["1 DV w/m > 5 GeV: 6 (66.7%) "]
2-->7
8["0 DV w/m>5 GeV: 3 (33.3%) S/sqrt(B) = 0.0"]
2-->8
9["\>=2 matched el: 61 (81.3%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 2 (2.7%) S/sqrt(B) = 0.3"]
4-->10
11["No matched el: 12 (16.0%) S/sqrt(B) = 0.1"]
4-->11
12["\>=2 matched el: 3 (50.0%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 2 (33.3%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 1 (16.7%) S/sqrt(B) = 0.1"]
7-->14
mS = 200, mZ_{d} = 15, #tau = 0.1ns(_split_by_nEl)
flowchart TD
0["ee Region: 8213 (16.4%) "]
1["2e: 4146 (50.5%) "]
0-->1
2["\>=2e: 4067 (49.5%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 157 (3.8%) S/sqrt(B) = 7.3"]
1-->3
4["1 DV w/m > 5 GeV: 1893 (45.7%) "]
1-->4
5["0 DV w/m>5 GeV: 2096 (50.6%) S/sqrt(B) = 2.4"]
1-->5
6["\> 1 DV w/m > 5 GeV: 647 (15.9%) S/sqrt(B) = 17.9"]
2-->6
7["1 DV w/m > 5 GeV: 2051 (50.4%) "]
2-->7
8["0 DV w/m>5 GeV: 1369 (33.7%) S/sqrt(B) = 13.6"]
2-->8
9["\>=2 matched el: 1149 (60.7%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 528 (27.9%) S/sqrt(B) = 15.6"]
4-->10
11["No matched el: 216 (11.4%) S/sqrt(B) = 2.6"]
4-->11
12["\>=2 matched el: 1606 (78.3%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 317 (15.5%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 128 (6.2%) S/sqrt(B) = 12.4"]
7-->14
mS = 200, mZ_{d} = 15, #tau = 0.5ns(_split_by_nEl)
flowchart TD
0["ee Region: 2449 (4.9%) "]
1["2e: 1909 (78.0%) "]
0-->1
2["\>=2e: 540 (22.0%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 13 (0.7%) S/sqrt(B) = 1.2"]
1-->3
4["1 DV w/m > 5 GeV: 841 (44.1%) "]
1-->4
5["0 DV w/m>5 GeV: 1055 (55.3%) S/sqrt(B) = 1.2"]
1-->5
6["\> 1 DV w/m > 5 GeV: 61 (11.3%) S/sqrt(B) = 5.4"]
2-->6
7["1 DV w/m > 5 GeV: 251 (46.5%) "]
2-->7
8["0 DV w/m>5 GeV: 228 (42.2%) S/sqrt(B) = 2.3"]
2-->8
9["\>=2 matched el: 696 (82.8%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 97 (11.5%) S/sqrt(B) = 6.0"]
4-->10
11["No matched el: 48 (5.7%) S/sqrt(B) = 0.6"]
4-->11
12["\>=2 matched el: 212 (84.5%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 22 (8.8%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 17 (6.8%) S/sqrt(B) = 1.7"]
7-->14
mS = 200, mZ_{d} = 15, #tau = 10ns(_split_by_nEl)
flowchart TD
0["ee Region: 116 (0.2%) "]
1["2e: 111 (95.7%) "]
0-->1
2["\>=2e: 5 (4.3%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
1-->3
4["1 DV w/m > 5 GeV: 52 (46.8%) "]
1-->4
5["0 DV w/m>5 GeV: 59 (53.2%) S/sqrt(B) = 0.1"]
1-->5
6["\> 1 DV w/m > 5 GeV: 3 (60.0%) S/sqrt(B) = 1.0"]
2-->6
7["1 DV w/m > 5 GeV: 0 (0.0%) "]
2-->7
8["0 DV w/m>5 GeV: 2 (40.0%) S/sqrt(B) = 0.0"]
2-->8
9["\>=2 matched el: 49 (94.2%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 1 (1.9%) S/sqrt(B) = 0.2"]
4-->10
11["No matched el: 2 (3.8%) S/sqrt(B) = 0.0"]
4-->11
12["\>=2 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 0 (-nan%) S/sqrt(B) = 0.0"]
7-->14
mS = 200, mZ_{d} = 15, #tau = 2ns(_split_by_nEl)
flowchart TD
0["ee Region: 613 (1.2%) "]
1["2e: 566 (92.3%) "]
0-->1
2["\>=2e: 47 (7.7%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
1-->3
4["1 DV w/m > 5 GeV: 236 (41.7%) "]
1-->4
5["0 DV w/m>5 GeV: 330 (58.3%) S/sqrt(B) = 0.4"]
1-->5
6["\> 1 DV w/m > 5 GeV: 5 (10.6%) S/sqrt(B) = 1.4"]
2-->6
7["1 DV w/m > 5 GeV: 21 (44.7%) "]
2-->7
8["0 DV w/m>5 GeV: 21 (44.7%) S/sqrt(B) = 0.2"]
2-->8
9["\>=2 matched el: 211 (89.4%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 12 (5.1%) S/sqrt(B) = 1.4"]
4-->10
11["No matched el: 13 (5.5%) S/sqrt(B) = 0.2"]
4-->11
12["\>=2 matched el: 17 (81.0%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 3 (14.3%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 1 (4.8%) S/sqrt(B) = 0.1"]
7-->14
mS = 200, mZ_{d} = 50, #tau = 0.1ns(_split_by_nEl)
flowchart TD
0["ee Region: 12873 (25.7%) "]
1["2e: 4725 (36.7%) "]
0-->1
2["\>=2e: 8148 (63.3%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 307 (6.5%) S/sqrt(B) = 11.0"]
1-->3
4["1 DV w/m > 5 GeV: 2084 (44.1%) "]
1-->4
5["0 DV w/m>5 GeV: 2334 (49.4%) S/sqrt(B) = 2.7"]
1-->5
6["\> 1 DV w/m > 5 GeV: 1728 (21.2%) S/sqrt(B) = 29.4"]
2-->6
7["1 DV w/m > 5 GeV: 4114 (50.5%) "]
2-->7
8["0 DV w/m>5 GeV: 2306 (28.3%) S/sqrt(B) = 22.8"]
2-->8
9["\>=2 matched el: 776 (37.2%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 1092 (52.4%) S/sqrt(B) = 22.9"]
4-->10
11["No matched el: 216 (10.4%) S/sqrt(B) = 2.6"]
4-->11
12["\>=2 matched el: 3264 (79.3%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 618 (15.0%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 232 (5.6%) S/sqrt(B) = 22.5"]
7-->14
mS = 200, mZ_{d} = 50, #tau = 0.5ns(_split_by_nEl)
flowchart TD
0["ee Region: 8572 (17.1%) "]
1["2e: 5009 (58.4%) "]
0-->1
2["\>=2e: 3563 (41.6%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 78 (1.6%) S/sqrt(B) = 4.5"]
1-->3
4["1 DV w/m > 5 GeV: 1783 (35.6%) "]
1-->4
5["0 DV w/m>5 GeV: 3148 (62.8%) S/sqrt(B) = 3.6"]
1-->5
6["\> 1 DV w/m > 5 GeV: 395 (11.1%) S/sqrt(B) = 14.0"]
2-->6
7["1 DV w/m > 5 GeV: 1777 (49.9%) "]
2-->7
8["0 DV w/m>5 GeV: 1391 (39.0%) S/sqrt(B) = 13.8"]
2-->8
9["\>=2 matched el: 1152 (64.6%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 477 (26.8%) S/sqrt(B) = 14.8"]
4-->10
11["No matched el: 154 (8.6%) S/sqrt(B) = 1.8"]
4-->11
12["\>=2 matched el: 1467 (82.6%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 213 (12.0%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 97 (5.5%) S/sqrt(B) = 9.4"]
7-->14
mS = 200, mZ_{d} = 50, #tau = 10ns(_split_by_nEl)
flowchart TD
0["ee Region: 552 (1.1%) "]
1["2e: 522 (94.6%) "]
0-->1
2["\>=2e: 30 (5.4%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
1-->3
4["1 DV w/m > 5 GeV: 230 (44.1%) "]
1-->4
5["0 DV w/m>5 GeV: 292 (55.9%) S/sqrt(B) = 0.3"]
1-->5
6["\> 1 DV w/m > 5 GeV: 1 (3.3%) S/sqrt(B) = 0.5"]
2-->6
7["1 DV w/m > 5 GeV: 14 (46.7%) "]
2-->7
8["0 DV w/m>5 GeV: 15 (50.0%) S/sqrt(B) = 0.1"]
2-->8
9["\>=2 matched el: 210 (91.3%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 9 (3.9%) S/sqrt(B) = 1.1"]
4-->10
11["No matched el: 11 (4.8%) S/sqrt(B) = 0.1"]
4-->11
12["\>=2 matched el: 9 (64.3%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 3 (21.4%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 2 (14.3%) S/sqrt(B) = 0.2"]
7-->14
mS = 200, mZ_{d} = 50, #tau = 2ns(_split_by_nEl)
flowchart TD
0["ee Region: 3038 (6.1%) "]
1["2e: 2413 (79.4%) "]
0-->1
2["\>=2e: 625 (20.6%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 14 (0.6%) S/sqrt(B) = 1.3"]
1-->3
4["1 DV w/m > 5 GeV: 928 (38.5%) "]
1-->4
5["0 DV w/m>5 GeV: 1471 (61.0%) S/sqrt(B) = 1.7"]
1-->5
6["\> 1 DV w/m > 5 GeV: 55 (8.8%) S/sqrt(B) = 5.1"]
2-->6
7["1 DV w/m > 5 GeV: 273 (43.7%) "]
2-->7
8["0 DV w/m>5 GeV: 297 (47.5%) S/sqrt(B) = 2.9"]
2-->8
9["\>=2 matched el: 755 (81.4%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 109 (11.7%) S/sqrt(B) = 6.4"]
4-->10
11["No matched el: 64 (6.9%) S/sqrt(B) = 0.8"]
4-->11
12["\>=2 matched el: 240 (87.9%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 21 (7.7%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 12 (4.4%) S/sqrt(B) = 1.2"]
7-->14
mS = 200, mZ_{d} = 90, #tau = 0.1ns(_split_by_nEl)
flowchart TD
0["ee Region: 10281 (20.6%) "]
1["2e: 3069 (29.9%) "]
0-->1
2["\>=2e: 7212 (70.1%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 213 (6.9%) S/sqrt(B) = 8.8"]
1-->3
4["1 DV w/m > 5 GeV: 1027 (33.5%) "]
1-->4
5["0 DV w/m>5 GeV: 1829 (59.6%) S/sqrt(B) = 2.1"]
1-->5
6["\> 1 DV w/m > 5 GeV: 1177 (16.3%) S/sqrt(B) = 24.2"]
2-->6
7["1 DV w/m > 5 GeV: 3432 (47.6%) "]
2-->7
8["0 DV w/m>5 GeV: 2603 (36.1%) S/sqrt(B) = 25.8"]
2-->8
9["\>=2 matched el: 11 (1.1%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 876 (85.3%) S/sqrt(B) = 20.4"]
4-->10
11["No matched el: 140 (13.6%) S/sqrt(B) = 1.7"]
4-->11
12["\>=2 matched el: 2623 (76.4%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 522 (15.2%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 287 (8.4%) S/sqrt(B) = 27.9"]
7-->14
mS = 200, mZ_{d} = 90, #tau = 0.5ns(_split_by_nEl)
flowchart TD
0["ee Region: 9470 (18.9%) "]
1["2e: 3697 (39.0%) "]
0-->1
2["\>=2e: 5773 (61.0%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 80 (2.2%) S/sqrt(B) = 4.6"]
1-->3
4["1 DV w/m > 5 GeV: 909 (24.6%) "]
1-->4
5["0 DV w/m>5 GeV: 2708 (73.2%) S/sqrt(B) = 3.1"]
1-->5
6["\> 1 DV w/m > 5 GeV: 450 (7.8%) S/sqrt(B) = 14.9"]
2-->6
7["1 DV w/m > 5 GeV: 2556 (44.3%) "]
2-->7
8["0 DV w/m>5 GeV: 2767 (47.9%) S/sqrt(B) = 27.4"]
2-->8
9["\>=2 matched el: 19 (2.1%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 754 (82.9%) S/sqrt(B) = 18.8"]
4-->10
11["No matched el: 136 (15.0%) S/sqrt(B) = 1.6"]
4-->11
12["\>=2 matched el: 1986 (77.7%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 317 (12.4%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 253 (9.9%) S/sqrt(B) = 24.6"]
7-->14
mS = 200, mZ_{d} = 90, #tau = 10ns(_split_by_nEl)
flowchart TD
0["ee Region: 441 (0.9%) "]
1["2e: 259 (58.7%) "]
0-->1
2["\>=2e: 182 (41.3%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 1 (0.4%) S/sqrt(B) = 0.1"]
1-->3
4["1 DV w/m > 5 GeV: 43 (16.6%) "]
1-->4
5["0 DV w/m>5 GeV: 215 (83.0%) S/sqrt(B) = 0.2"]
1-->5
6["\> 1 DV w/m > 5 GeV: 11 (6.0%) S/sqrt(B) = 2.2"]
2-->6
7["1 DV w/m > 5 GeV: 52 (28.6%) "]
2-->7
8["0 DV w/m>5 GeV: 119 (65.4%) S/sqrt(B) = 1.2"]
2-->8
9["\>=2 matched el: 8 (18.6%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 24 (55.8%) S/sqrt(B) = 2.4"]
4-->10
11["No matched el: 11 (25.6%) S/sqrt(B) = 0.1"]
4-->11
12["\>=2 matched el: 45 (86.5%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 2 (3.8%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 5 (9.6%) S/sqrt(B) = 0.5"]
7-->14
mS = 200, mZ_{d} = 90, #tau = 2ns(_split_by_nEl)
flowchart TD
0["ee Region: 3874 (7.7%) "]
1["2e: 1873 (48.3%) "]
0-->1
2["\>=2e: 2001 (51.7%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 11 (0.6%) S/sqrt(B) = 1.0"]
1-->3
4["1 DV w/m > 5 GeV: 277 (14.8%) "]
1-->4
5["0 DV w/m>5 GeV: 1585 (84.6%) S/sqrt(B) = 1.8"]
1-->5
6["\> 1 DV w/m > 5 GeV: 83 (4.1%) S/sqrt(B) = 6.3"]
2-->6
7["1 DV w/m > 5 GeV: 801 (40.0%) "]
2-->7
8["0 DV w/m>5 GeV: 1117 (55.8%) S/sqrt(B) = 11.1"]
2-->8
9["\>=2 matched el: 22 (7.9%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 210 (75.8%) S/sqrt(B) = 9.4"]
4-->10
11["No matched el: 45 (16.2%) S/sqrt(B) = 0.5"]
4-->11
12["\>=2 matched el: 634 (79.2%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 71 (8.9%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 96 (12.0%) S/sqrt(B) = 9.3"]
7-->14
mS = 400, mZ_{d} = 100, #tau = 0.1ns(_split_by_nEl)
flowchart TD
0["ee Region: 16960 (33.9%) "]
1["2e: 4169 (24.6%) "]
0-->1
2["\>=2e: 12791 (75.4%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 191 (4.6%) S/sqrt(B) = 8.2"]
1-->3
4["1 DV w/m > 5 GeV: 1660 (39.8%) "]
1-->4
5["0 DV w/m>5 GeV: 2318 (55.6%) S/sqrt(B) = 2.7"]
1-->5
6["\> 1 DV w/m > 5 GeV: 2934 (22.9%) S/sqrt(B) = 38.3"]
2-->6
7["1 DV w/m > 5 GeV: 6516 (50.9%) "]
2-->7
8["0 DV w/m>5 GeV: 3341 (26.1%) S/sqrt(B) = 33.1"]
2-->8
9["\>=2 matched el: 530 (31.9%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 960 (57.8%) S/sqrt(B) = 21.4"]
4-->10
11["No matched el: 170 (10.2%) S/sqrt(B) = 2.0"]
4-->11
12["\>=2 matched el: 5430 (83.3%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 709 (10.9%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 377 (5.8%) S/sqrt(B) = 36.6"]
7-->14
mS = 400, mZ_{d} = 100, #tau = 0.5ns(_split_by_nEl)
flowchart TD
0["ee Region: 12106 (24.2%) "]
1["2e: 5842 (48.3%) "]
0-->1
2["\>=2e: 6264 (51.7%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 54 (0.9%) S/sqrt(B) = 3.5"]
1-->3
4["1 DV w/m > 5 GeV: 1926 (33.0%) "]
1-->4
5["0 DV w/m>5 GeV: 3862 (66.1%) S/sqrt(B) = 4.4"]
1-->5
6["\> 1 DV w/m > 5 GeV: 700 (11.2%) S/sqrt(B) = 18.7"]
2-->6
7["1 DV w/m > 5 GeV: 3116 (49.7%) "]
2-->7
8["0 DV w/m>5 GeV: 2448 (39.1%) S/sqrt(B) = 24.2"]
2-->8
9["\>=2 matched el: 1204 (62.5%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 568 (29.5%) S/sqrt(B) = 16.2"]
4-->10
11["No matched el: 154 (8.0%) S/sqrt(B) = 1.8"]
4-->11
12["\>=2 matched el: 2713 (87.1%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 246 (7.9%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 157 (5.0%) S/sqrt(B) = 15.2"]
7-->14
mS = 400, mZ_{d} = 100, #tau = 10ns(_split_by_nEl)
flowchart TD
0["ee Region: 717 (1.4%) "]
1["2e: 646 (90.1%) "]
0-->1
2["\>=2e: 71 (9.9%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 2 (0.3%) S/sqrt(B) = 0.2"]
1-->3
4["1 DV w/m > 5 GeV: 266 (41.2%) "]
1-->4
5["0 DV w/m>5 GeV: 378 (58.5%) S/sqrt(B) = 0.4"]
1-->5
6["\> 1 DV w/m > 5 GeV: 5 (7.0%) S/sqrt(B) = 1.4"]
2-->6
7["1 DV w/m > 5 GeV: 32 (45.1%) "]
2-->7
8["0 DV w/m>5 GeV: 34 (47.9%) S/sqrt(B) = 0.3"]
2-->8
9["\>=2 matched el: 236 (88.7%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 14 (5.3%) S/sqrt(B) = 1.6"]
4-->10
11["No matched el: 16 (6.0%) S/sqrt(B) = 0.2"]
4-->11
12["\>=2 matched el: 29 (90.6%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 2 (6.2%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 1 (3.1%) S/sqrt(B) = 0.1"]
7-->14
mS = 400, mZ_{d} = 10, #tau = 0.1ns(_split_by_nEl)
flowchart TD
0["ee Region: 479 (1.0%) "]
1["2e: 406 (84.8%) "]
0-->1
2["\>=2e: 73 (15.2%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 11 (2.7%) S/sqrt(B) = 1.0"]
1-->3
4["1 DV w/m > 5 GeV: 185 (45.6%) "]
1-->4
5["0 DV w/m>5 GeV: 210 (51.7%) S/sqrt(B) = 0.2"]
1-->5
6["\> 1 DV w/m > 5 GeV: 11 (15.1%) S/sqrt(B) = 2.2"]
2-->6
7["1 DV w/m > 5 GeV: 29 (39.7%) "]
2-->7
8["0 DV w/m>5 GeV: 33 (45.2%) S/sqrt(B) = 0.3"]
2-->8
9["\>=2 matched el: 119 (64.3%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 40 (21.6%) S/sqrt(B) = 3.4"]
4-->10
11["No matched el: 26 (14.1%) S/sqrt(B) = 0.3"]
4-->11
12["\>=2 matched el: 15 (51.7%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 10 (34.5%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 4 (13.8%) S/sqrt(B) = 0.4"]
7-->14
mS = 400, mZ_{d} = 100, #tau = 2ns(_split_by_nEl)
flowchart TD
0["ee Region: 4214 (8.4%) "]
1["2e: 3039 (72.1%) "]
0-->1
2["\>=2e: 1175 (27.9%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 10 (0.3%) S/sqrt(B) = 1.0"]
1-->3
4["1 DV w/m > 5 GeV: 1056 (34.7%) "]
1-->4
5["0 DV w/m>5 GeV: 1973 (64.9%) S/sqrt(B) = 2.3"]
1-->5
6["\> 1 DV w/m > 5 GeV: 78 (6.6%) S/sqrt(B) = 6.1"]
2-->6
7["1 DV w/m > 5 GeV: 538 (45.8%) "]
2-->7
8["0 DV w/m>5 GeV: 559 (47.6%) S/sqrt(B) = 5.5"]
2-->8
9["\>=2 matched el: 848 (80.3%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 142 (13.4%) S/sqrt(B) = 7.5"]
4-->10
11["No matched el: 66 (6.2%) S/sqrt(B) = 0.8"]
4-->11
12["\>=2 matched el: 478 (88.8%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 29 (5.4%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 31 (5.8%) S/sqrt(B) = 3.0"]
7-->14
mS = 400, mZ_{d} = 10, #tau = 0.5ns(_split_by_nEl)
flowchart TD
0["ee Region: 118 (0.2%) "]
1["2e: 109 (92.4%) "]
0-->1
2["\>=2e: 9 (7.6%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 1 (0.9%) S/sqrt(B) = 0.1"]
1-->3
4["1 DV w/m > 5 GeV: 43 (39.4%) "]
1-->4
5["0 DV w/m>5 GeV: 65 (59.6%) S/sqrt(B) = 0.1"]
1-->5
6["\> 1 DV w/m > 5 GeV: 1 (11.1%) S/sqrt(B) = 0.5"]
2-->6
7["1 DV w/m > 5 GeV: 5 (55.6%) "]
2-->7
8["0 DV w/m>5 GeV: 3 (33.3%) S/sqrt(B) = 0.0"]
2-->8
9["\>=2 matched el: 35 (81.4%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 3 (7.0%) S/sqrt(B) = 0.5"]
4-->10
11["No matched el: 5 (11.6%) S/sqrt(B) = 0.1"]
4-->11
12["\>=2 matched el: 5 (100.0%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 0 (0.0%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 0 (0.0%) S/sqrt(B) = 0.0"]
7-->14
mS = 400, mZ_{d} = 10, #tau = 10ns(_split_by_nEl)
flowchart TD
0["ee Region: 5 (0.0%) "]
1["2e: 5 (100.0%) "]
0-->1
2["\>=2e: 0 (0.0%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
1-->3
4["1 DV w/m > 5 GeV: 3 (60.0%) "]
1-->4
5["0 DV w/m>5 GeV: 2 (40.0%) S/sqrt(B) = 0.0"]
1-->5
6["\> 1 DV w/m > 5 GeV: 0 (-nan%) S/sqrt(B) = -nan"]
2-->6
7["1 DV w/m > 5 GeV: 0 (-nan%) "]
2-->7
8["0 DV w/m>5 GeV: 0 (-nan%) S/sqrt(B) = 0.0"]
2-->8
9["\>=2 matched el: 3 (100.0%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 0 (0.0%) S/sqrt(B) = -nan"]
4-->10
11["No matched el: 0 (0.0%) S/sqrt(B) = 0.0"]
4-->11
12["\>=2 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 0 (-nan%) S/sqrt(B) = 0.0"]
7-->14
mS = 400, mZ_{d} = 10, #tau = 2ns(_split_by_nEl)
flowchart TD
0["ee Region: 33 (0.1%) "]
1["2e: 32 (97.0%) "]
0-->1
2["\>=2e: 1 (3.0%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
1-->3
4["1 DV w/m > 5 GeV: 11 (34.4%) "]
1-->4
5["0 DV w/m>5 GeV: 21 (65.6%) S/sqrt(B) = 0.0"]
1-->5
6["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
2-->6
7["1 DV w/m > 5 GeV: 0 (0.0%) "]
2-->7
8["0 DV w/m>5 GeV: 1 (100.0%) S/sqrt(B) = 0.0"]
2-->8
9["\>=2 matched el: 9 (81.8%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 0 (0.0%) S/sqrt(B) = -nan"]
4-->10
11["No matched el: 2 (18.2%) S/sqrt(B) = 0.0"]
4-->11
12["\>=2 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 0 (-nan%) S/sqrt(B) = 0.0"]
7-->14
mS = 400, mZ_{d} = 15, #tau = 0.1ns(_split_by_nEl)
flowchart TD
0["ee Region: 2913 (5.8%) "]
1["2e: 2253 (77.3%) "]
0-->1
2["\>=2e: 660 (22.7%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 114 (5.1%) S/sqrt(B) = 5.9"]
1-->3
4["1 DV w/m > 5 GeV: 1059 (47.0%) "]
1-->4
5["0 DV w/m>5 GeV: 1080 (47.9%) S/sqrt(B) = 1.2"]
1-->5
6["\> 1 DV w/m > 5 GeV: 89 (13.5%) S/sqrt(B) = 6.6"]
2-->6
7["1 DV w/m > 5 GeV: 343 (52.0%) "]
2-->7
8["0 DV w/m>5 GeV: 228 (34.5%) S/sqrt(B) = 2.3"]
2-->8
9["\>=2 matched el: 779 (73.6%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 116 (11.0%) S/sqrt(B) = 6.7"]
4-->10
11["No matched el: 164 (15.5%) S/sqrt(B) = 1.9"]
4-->11
12["\>=2 matched el: 244 (71.1%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 71 (20.7%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 28 (8.2%) S/sqrt(B) = 2.7"]
7-->14
mS = 400, mZ_{d} = 15, #tau = 0.5ns(_split_by_nEl)
flowchart TD
0["ee Region: 777 (1.6%) "]
1["2e: 705 (90.7%) "]
0-->1
2["\>=2e: 72 (9.3%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 6 (0.9%) S/sqrt(B) = 0.6"]
1-->3
4["1 DV w/m > 5 GeV: 325 (46.1%) "]
1-->4
5["0 DV w/m>5 GeV: 374 (53.0%) S/sqrt(B) = 0.4"]
1-->5
6["\> 1 DV w/m > 5 GeV: 10 (13.9%) S/sqrt(B) = 2.1"]
2-->6
7["1 DV w/m > 5 GeV: 34 (47.2%) "]
2-->7
8["0 DV w/m>5 GeV: 28 (38.9%) S/sqrt(B) = 0.3"]
2-->8
9["\>=2 matched el: 279 (85.8%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 15 (4.6%) S/sqrt(B) = 1.7"]
4-->10
11["No matched el: 31 (9.5%) S/sqrt(B) = 0.4"]
4-->11
12["\>=2 matched el: 25 (73.5%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 7 (20.6%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 2 (5.9%) S/sqrt(B) = 0.2"]
7-->14
mS = 400, mZ_{d} = 15, #tau = 10ns(_split_by_nEl)
flowchart TD
0["ee Region: 41 (0.1%) "]
1["2e: 41 (100.0%) "]
0-->1
2["\>=2e: 0 (0.0%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
1-->3
4["1 DV w/m > 5 GeV: 18 (43.9%) "]
1-->4
5["0 DV w/m>5 GeV: 23 (56.1%) S/sqrt(B) = 0.0"]
1-->5
6["\> 1 DV w/m > 5 GeV: 0 (-nan%) S/sqrt(B) = -nan"]
2-->6
7["1 DV w/m > 5 GeV: 0 (-nan%) "]
2-->7
8["0 DV w/m>5 GeV: 0 (-nan%) S/sqrt(B) = 0.0"]
2-->8
9["\>=2 matched el: 16 (88.9%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 1 (5.6%) S/sqrt(B) = 0.2"]
4-->10
11["No matched el: 1 (5.6%) S/sqrt(B) = 0.0"]
4-->11
12["\>=2 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 0 (-nan%) S/sqrt(B) = 0.0"]
7-->14
mS = 400, mZ_{d} = 15, #tau = 2ns(_split_by_nEl)
flowchart TD
0["ee Region: 187 (0.4%) "]
1["2e: 179 (95.7%) "]
0-->1
2["\>=2e: 8 (4.3%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
1-->3
4["1 DV w/m > 5 GeV: 63 (35.2%) "]
1-->4
5["0 DV w/m>5 GeV: 116 (64.8%) S/sqrt(B) = 0.1"]
1-->5
6["\> 1 DV w/m > 5 GeV: 1 (12.5%) S/sqrt(B) = 0.5"]
2-->6
7["1 DV w/m > 5 GeV: 3 (37.5%) "]
2-->7
8["0 DV w/m>5 GeV: 4 (50.0%) S/sqrt(B) = 0.0"]
2-->8
9["\>=2 matched el: 54 (85.7%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 3 (4.8%) S/sqrt(B) = 0.5"]
4-->10
11["No matched el: 6 (9.5%) S/sqrt(B) = 0.1"]
4-->11
12["\>=2 matched el: 2 (66.7%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 0 (0.0%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 1 (33.3%) S/sqrt(B) = 0.1"]
7-->14
mS = 400, mZ_{d} = 190, #tau = 0.1ns(_split_by_nEl)
flowchart TD
0["ee Region: 21143 (42.3%) "]
1["2e: 4328 (20.5%) "]
0-->1
2["\>=2e: 16815 (79.5%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 266 (6.1%) S/sqrt(B) = 10.1"]
1-->3
4["1 DV w/m > 5 GeV: 1435 (33.2%) "]
1-->4
5["0 DV w/m>5 GeV: 2627 (60.7%) S/sqrt(B) = 3.0"]
1-->5
6["\> 1 DV w/m > 5 GeV: 2708 (16.1%) S/sqrt(B) = 36.8"]
2-->6
7["1 DV w/m > 5 GeV: 7952 (47.3%) "]
2-->7
8["0 DV w/m>5 GeV: 6155 (36.6%) S/sqrt(B) = 60.9"]
2-->8
9["\>=2 matched el: 430 (30.0%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 759 (52.9%) S/sqrt(B) = 18.9"]
4-->10
11["No matched el: 246 (17.1%) S/sqrt(B) = 2.9"]
4-->11
12["\>=2 matched el: 6336 (79.7%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 913 (11.5%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 703 (8.8%) S/sqrt(B) = 68.3"]
7-->14
mS = 400, mZ_{d} = 190, #tau = 0.5ns(_split_by_nEl)
flowchart TD
0["ee Region: 24248 (48.5%) "]
1["2e: 8563 (35.3%) "]
0-->1
2["\>=2e: 15685 (64.7%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 116 (1.4%) S/sqrt(B) = 6.0"]
1-->3
4["1 DV w/m > 5 GeV: 2465 (28.8%) "]
1-->4
5["0 DV w/m>5 GeV: 5982 (69.9%) S/sqrt(B) = 6.9"]
1-->5
6["\> 1 DV w/m > 5 GeV: 1492 (9.5%) S/sqrt(B) = 27.3"]
2-->6
7["1 DV w/m > 5 GeV: 6834 (43.6%) "]
2-->7
8["0 DV w/m>5 GeV: 7359 (46.9%) S/sqrt(B) = 72.9"]
2-->8
9["\>=2 matched el: 1262 (51.2%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 865 (35.1%) S/sqrt(B) = 20.2"]
4-->10
11["No matched el: 338 (13.7%) S/sqrt(B) = 4.0"]
4-->11
12["\>=2 matched el: 5425 (79.4%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 692 (10.1%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 717 (10.5%) S/sqrt(B) = 69.6"]
7-->14
mS = 400, mZ_{d} = 190, #tau = 10ns(_split_by_nEl)
flowchart TD
0["ee Region: 5115 (10.2%) "]
1["2e: 4348 (85.0%) "]
0-->1
2["\>=2e: 767 (15.0%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 7 (0.2%) S/sqrt(B) = 0.7"]
1-->3
4["1 DV w/m > 5 GeV: 1272 (29.3%) "]
1-->4
5["0 DV w/m>5 GeV: 3069 (70.6%) S/sqrt(B) = 3.5"]
1-->5
6["\> 1 DV w/m > 5 GeV: 31 (4.0%) S/sqrt(B) = 3.8"]
2-->6
7["1 DV w/m > 5 GeV: 286 (37.3%) "]
2-->7
8["0 DV w/m>5 GeV: 450 (58.7%) S/sqrt(B) = 4.5"]
2-->8
9["\>=2 matched el: 1061 (83.4%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 64 (5.0%) S/sqrt(B) = 4.6"]
4-->10
11["No matched el: 147 (11.6%) S/sqrt(B) = 1.7"]
4-->11
12["\>=2 matched el: 230 (80.4%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 16 (5.6%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 40 (14.0%) S/sqrt(B) = 3.9"]
7-->14
mS = 400, mZ_{d} = 190, #tau = 2ns(_split_by_nEl)
flowchart TD
0["ee Region: 16604 (33.2%) "]
1["2e: 9697 (58.4%) "]
0-->1
2["\>=2e: 6907 (41.6%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 40 (0.4%) S/sqrt(B) = 2.8"]
1-->3
4["1 DV w/m > 5 GeV: 2468 (25.5%) "]
1-->4
5["0 DV w/m>5 GeV: 7189 (74.1%) S/sqrt(B) = 8.3"]
1-->5
6["\> 1 DV w/m > 5 GeV: 319 (4.6%) S/sqrt(B) = 12.6"]
2-->6
7["1 DV w/m > 5 GeV: 2676 (38.7%) "]
2-->7
8["0 DV w/m>5 GeV: 3912 (56.6%) S/sqrt(B) = 38.7"]
2-->8
9["\>=2 matched el: 1817 (73.6%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 320 (13.0%) S/sqrt(B) = 11.9"]
4-->10
11["No matched el: 331 (13.4%) S/sqrt(B) = 3.9"]
4-->11
12["\>=2 matched el: 2143 (80.1%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 225 (8.4%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 308 (11.5%) S/sqrt(B) = 29.9"]
7-->14
mS = 600, mZ_{d} = 10, #tau = 0.1ns(_split_by_nEl)
flowchart TD
0["ee Region: 231 (0.5%) "]
1["2e: 207 (89.6%) "]
0-->1
2["\>=2e: 24 (10.4%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 9 (4.3%) S/sqrt(B) = 0.9"]
1-->3
4["1 DV w/m > 5 GeV: 97 (46.9%) "]
1-->4
5["0 DV w/m>5 GeV: 101 (48.8%) S/sqrt(B) = 0.1"]
1-->5
6["\> 1 DV w/m > 5 GeV: 2 (8.3%) S/sqrt(B) = 0.8"]
2-->6
7["1 DV w/m > 5 GeV: 12 (50.0%) "]
2-->7
8["0 DV w/m>5 GeV: 10 (41.7%) S/sqrt(B) = 0.1"]
2-->8
9["\>=2 matched el: 52 (53.6%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 27 (27.8%) S/sqrt(B) = 2.6"]
4-->10
11["No matched el: 18 (18.6%) S/sqrt(B) = 0.2"]
4-->11
12["\>=2 matched el: 5 (41.7%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 3 (25.0%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 4 (33.3%) S/sqrt(B) = 0.4"]
7-->14
mS = 600, mZ_{d} = 10, #tau = 0.5ns(_split_by_nEl)
flowchart TD
0["ee Region: 40 (0.1%) "]
1["2e: 38 (95.0%) "]
0-->1
2["\>=2e: 2 (5.0%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 1 (2.6%) S/sqrt(B) = 0.1"]
1-->3
4["1 DV w/m > 5 GeV: 14 (36.8%) "]
1-->4
5["0 DV w/m>5 GeV: 23 (60.5%) S/sqrt(B) = 0.0"]
1-->5
6["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
2-->6
7["1 DV w/m > 5 GeV: 1 (50.0%) "]
2-->7
8["0 DV w/m>5 GeV: 1 (50.0%) S/sqrt(B) = 0.0"]
2-->8
9["\>=2 matched el: 12 (85.7%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 1 (7.1%) S/sqrt(B) = 0.2"]
4-->10
11["No matched el: 1 (7.1%) S/sqrt(B) = 0.0"]
4-->11
12["\>=2 matched el: 1 (100.0%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 0 (0.0%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 0 (0.0%) S/sqrt(B) = 0.0"]
7-->14
mS = 600, mZ_{d} = 10, #tau = 10ns(_split_by_nEl)
flowchart TD
0["ee Region: 0 (0.0%) "]
1["2e: 0 (-nan%) "]
0-->1
2["\>=2e: 0 (-nan%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 0 (-nan%) S/sqrt(B) = -nan"]
1-->3
4["1 DV w/m > 5 GeV: 0 (-nan%) "]
1-->4
5["0 DV w/m>5 GeV: 0 (-nan%) S/sqrt(B) = 0.0"]
1-->5
6["\> 1 DV w/m > 5 GeV: 0 (-nan%) S/sqrt(B) = -nan"]
2-->6
7["1 DV w/m > 5 GeV: 0 (-nan%) "]
2-->7
8["0 DV w/m>5 GeV: 0 (-nan%) S/sqrt(B) = 0.0"]
2-->8
9["\>=2 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
4-->10
11["No matched el: 0 (-nan%) S/sqrt(B) = 0.0"]
4-->11
12["\>=2 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 0 (-nan%) S/sqrt(B) = 0.0"]
7-->14
mS = 600, mZ_{d} = 10, #tau = 2ns(_split_by_nEl)
flowchart TD
0["ee Region: 17 (0.0%) "]
1["2e: 17 (100.0%) "]
0-->1
2["\>=2e: 0 (0.0%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
1-->3
4["1 DV w/m > 5 GeV: 7 (41.2%) "]
1-->4
5["0 DV w/m>5 GeV: 10 (58.8%) S/sqrt(B) = 0.0"]
1-->5
6["\> 1 DV w/m > 5 GeV: 0 (-nan%) S/sqrt(B) = -nan"]
2-->6
7["1 DV w/m > 5 GeV: 0 (-nan%) "]
2-->7
8["0 DV w/m>5 GeV: 0 (-nan%) S/sqrt(B) = 0.0"]
2-->8
9["\>=2 matched el: 5 (71.4%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 0 (0.0%) S/sqrt(B) = -nan"]
4-->10
11["No matched el: 2 (28.6%) S/sqrt(B) = 0.0"]
4-->11
12["\>=2 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 0 (-nan%) S/sqrt(B) = 0.0"]
7-->14
mS = 600, mZ_{d} = 150, #tau = 0.1ns(_split_by_nEl)
flowchart TD
0["ee Region: 20458 (40.9%) "]
1["2e: 4659 (22.8%) "]
0-->1
2["\>=2e: 15799 (77.2%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 203 (4.4%) S/sqrt(B) = 8.5"]
1-->3
4["1 DV w/m > 5 GeV: 2014 (43.2%) "]
1-->4
5["0 DV w/m>5 GeV: 2442 (52.4%) S/sqrt(B) = 2.8"]
1-->5
6["\> 1 DV w/m > 5 GeV: 3723 (23.6%) S/sqrt(B) = 43.1"]
2-->6
7["1 DV w/m > 5 GeV: 8188 (51.8%) "]
2-->7
8["0 DV w/m>5 GeV: 3888 (24.6%) S/sqrt(B) = 38.5"]
2-->8
9["\>=2 matched el: 999 (49.6%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 814 (40.4%) S/sqrt(B) = 19.6"]
4-->10
11["No matched el: 201 (10.0%) S/sqrt(B) = 2.4"]
4-->11
12["\>=2 matched el: 6925 (84.6%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 819 (10.0%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 444 (5.4%) S/sqrt(B) = 43.1"]
7-->14
mS = 600, mZ_{d} = 150, #tau = 0.5ns(_split_by_nEl)
flowchart TD
0["ee Region: 17521 (35.0%) "]
1["2e: 9344 (53.3%) "]
0-->1
2["\>=2e: 8177 (46.7%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 77 (0.8%) S/sqrt(B) = 4.5"]
1-->3
4["1 DV w/m > 5 GeV: 3506 (37.5%) "]
1-->4
5["0 DV w/m>5 GeV: 5761 (61.7%) S/sqrt(B) = 6.6"]
1-->5
6["\> 1 DV w/m > 5 GeV: 900 (11.0%) S/sqrt(B) = 21.2"]
2-->6
7["1 DV w/m > 5 GeV: 4035 (49.3%) "]
2-->7
8["0 DV w/m>5 GeV: 3242 (39.6%) S/sqrt(B) = 32.1"]
2-->8
9["\>=2 matched el: 2742 (78.2%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 522 (14.9%) S/sqrt(B) = 15.5"]
4-->10
11["No matched el: 242 (6.9%) S/sqrt(B) = 2.9"]
4-->11
12["\>=2 matched el: 3528 (87.4%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 307 (7.6%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 200 (5.0%) S/sqrt(B) = 19.4"]
7-->14
mS = 600, mZ_{d} = 150, #tau = 10ns(_split_by_nEl)
flowchart TD
0["ee Region: 1686 (3.4%) "]
1["2e: 1600 (94.9%) "]
0-->1
2["\>=2e: 86 (5.1%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 7 (0.4%) S/sqrt(B) = 0.7"]
1-->3
4["1 DV w/m > 5 GeV: 662 (41.4%) "]
1-->4
5["0 DV w/m>5 GeV: 931 (58.2%) S/sqrt(B) = 1.1"]
1-->5
6["\> 1 DV w/m > 5 GeV: 7 (8.1%) S/sqrt(B) = 1.7"]
2-->6
7["1 DV w/m > 5 GeV: 34 (39.5%) "]
2-->7
8["0 DV w/m>5 GeV: 45 (52.3%) S/sqrt(B) = 0.4"]
2-->8
9["\>=2 matched el: 594 (89.7%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 29 (4.4%) S/sqrt(B) = 2.7"]
4-->10
11["No matched el: 39 (5.9%) S/sqrt(B) = 0.5"]
4-->11
12["\>=2 matched el: 31 (91.2%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 1 (2.9%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 2 (5.9%) S/sqrt(B) = 0.2"]
7-->14
mS = 600, mZ_{d} = 15, #tau = 0.1ns(_split_by_nEl)
flowchart TD
0["ee Region: 935 (1.9%) "]
1["2e: 773 (82.7%) "]
0-->1
2["\>=2e: 162 (17.3%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 29 (3.8%) S/sqrt(B) = 2.2"]
1-->3
4["1 DV w/m > 5 GeV: 385 (49.8%) "]
1-->4
5["0 DV w/m>5 GeV: 359 (46.4%) S/sqrt(B) = 0.4"]
1-->5
6["\> 1 DV w/m > 5 GeV: 19 (11.7%) S/sqrt(B) = 2.9"]
2-->6
7["1 DV w/m > 5 GeV: 83 (51.2%) "]
2-->7
8["0 DV w/m>5 GeV: 60 (37.0%) S/sqrt(B) = 0.6"]
2-->8
9["\>=2 matched el: 291 (75.6%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 40 (10.4%) S/sqrt(B) = 3.4"]
4-->10
11["No matched el: 54 (14.0%) S/sqrt(B) = 0.6"]
4-->11
12["\>=2 matched el: 56 (67.5%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 17 (20.5%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 10 (12.0%) S/sqrt(B) = 1.0"]
7-->14
mS = 600, mZ_{d} = 150, #tau = 2ns(_split_by_nEl)
flowchart TD
0["ee Region: 7398 (14.8%) "]
1["2e: 5944 (80.3%) "]
0-->1
2["\>=2e: 1454 (19.7%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 21 (0.4%) S/sqrt(B) = 1.7"]
1-->3
4["1 DV w/m > 5 GeV: 2299 (38.7%) "]
1-->4
5["0 DV w/m>5 GeV: 3624 (61.0%) S/sqrt(B) = 4.2"]
1-->5
6["\> 1 DV w/m > 5 GeV: 92 (6.3%) S/sqrt(B) = 6.7"]
2-->6
7["1 DV w/m > 5 GeV: 675 (46.4%) "]
2-->7
8["0 DV w/m>5 GeV: 687 (47.2%) S/sqrt(B) = 6.8"]
2-->8
9["\>=2 matched el: 2031 (88.3%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 128 (5.6%) S/sqrt(B) = 7.1"]
4-->10
11["No matched el: 140 (6.1%) S/sqrt(B) = 1.7"]
4-->11
12["\>=2 matched el: 593 (87.9%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 46 (6.8%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 36 (5.3%) S/sqrt(B) = 3.5"]
7-->14
mS = 600, mZ_{d} = 15, #tau = 0.5ns(_split_by_nEl)
flowchart TD
0["ee Region: 275 (0.5%) "]
1["2e: 262 (95.3%) "]
0-->1
2["\>=2e: 13 (4.7%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 1 (0.4%) S/sqrt(B) = 0.1"]
1-->3
4["1 DV w/m > 5 GeV: 120 (45.8%) "]
1-->4
5["0 DV w/m>5 GeV: 141 (53.8%) S/sqrt(B) = 0.2"]
1-->5
6["\> 1 DV w/m > 5 GeV: 1 (7.7%) S/sqrt(B) = 0.5"]
2-->6
7["1 DV w/m > 5 GeV: 6 (46.2%) "]
2-->7
8["0 DV w/m>5 GeV: 6 (46.2%) S/sqrt(B) = 0.1"]
2-->8
9["\>=2 matched el: 102 (85.0%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 4 (3.3%) S/sqrt(B) = 0.6"]
4-->10
11["No matched el: 14 (11.7%) S/sqrt(B) = 0.2"]
4-->11
12["\>=2 matched el: 3 (50.0%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 1 (16.7%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 2 (33.3%) S/sqrt(B) = 0.2"]
7-->14
mS = 600, mZ_{d} = 15, #tau = 10ns(_split_by_nEl)
flowchart TD
0["ee Region: 13 (0.0%) "]
1["2e: 13 (100.0%) "]
0-->1
2["\>=2e: 0 (0.0%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 1 (7.7%) S/sqrt(B) = 0.1"]
1-->3
4["1 DV w/m > 5 GeV: 5 (38.5%) "]
1-->4
5["0 DV w/m>5 GeV: 7 (53.8%) S/sqrt(B) = 0.0"]
1-->5
6["\> 1 DV w/m > 5 GeV: 0 (-nan%) S/sqrt(B) = -nan"]
2-->6
7["1 DV w/m > 5 GeV: 0 (-nan%) "]
2-->7
8["0 DV w/m>5 GeV: 0 (-nan%) S/sqrt(B) = 0.0"]
2-->8
9["\>=2 matched el: 4 (80.0%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 0 (0.0%) S/sqrt(B) = -nan"]
4-->10
11["No matched el: 1 (20.0%) S/sqrt(B) = 0.0"]
4-->11
12["\>=2 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 0 (-nan%) S/sqrt(B) = 0.0"]
7-->14
mS = 600, mZ_{d} = 15, #tau = 2ns(_split_by_nEl)
flowchart TD
0["ee Region: 75 (0.1%) "]
1["2e: 73 (97.3%) "]
0-->1
2["\>=2e: 2 (2.7%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
1-->3
4["1 DV w/m > 5 GeV: 27 (37.0%) "]
1-->4
5["0 DV w/m>5 GeV: 46 (63.0%) S/sqrt(B) = 0.1"]
1-->5
6["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
2-->6
7["1 DV w/m > 5 GeV: 2 (100.0%) "]
2-->7
8["0 DV w/m>5 GeV: 0 (0.0%) S/sqrt(B) = 0.0"]
2-->8
9["\>=2 matched el: 21 (77.8%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 2 (7.4%) S/sqrt(B) = 0.3"]
4-->10
11["No matched el: 4 (14.8%) S/sqrt(B) = 0.0"]
4-->11
12["\>=2 matched el: 2 (100.0%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 0 (0.0%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 0 (0.0%) S/sqrt(B) = 0.0"]
7-->14
mS = 600, mZ_{d} = 290, #tau = 0.5ns(_split_by_nEl)
flowchart TD
0["ee Region: 27807 (55.6%) "]
1["2e: 8220 (29.6%) "]
0-->1
2["\>=2e: 19587 (70.4%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 171 (2.1%) S/sqrt(B) = 7.7"]
1-->3
4["1 DV w/m > 5 GeV: 2393 (29.1%) "]
1-->4
5["0 DV w/m>5 GeV: 5656 (68.8%) S/sqrt(B) = 6.5"]
1-->5
6["\> 1 DV w/m > 5 GeV: 1967 (10.0%) S/sqrt(B) = 31.3"]
2-->6
7["1 DV w/m > 5 GeV: 8699 (44.4%) "]
2-->7
8["0 DV w/m>5 GeV: 8921 (45.5%) S/sqrt(B) = 88.3"]
2-->8
9["\>=2 matched el: 1206 (50.4%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 837 (35.0%) S/sqrt(B) = 19.9"]
4-->10
11["No matched el: 350 (14.6%) S/sqrt(B) = 4.1"]
4-->11
12["\>=2 matched el: 6982 (80.3%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 769 (8.8%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 948 (10.9%) S/sqrt(B) = 92.1"]
7-->14
mS = 600, mZ_{d} = 290, #tau = 10ns(_split_by_nEl)
flowchart TD
0["ee Region: 6696 (13.4%) "]
1["2e: 5550 (82.9%) "]
0-->1
2["\>=2e: 1146 (17.1%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 7 (0.1%) S/sqrt(B) = 0.7"]
1-->3
4["1 DV w/m > 5 GeV: 1533 (27.6%) "]
1-->4
5["0 DV w/m>5 GeV: 4010 (72.3%) S/sqrt(B) = 4.6"]
1-->5
6["\> 1 DV w/m > 5 GeV: 41 (3.6%) S/sqrt(B) = 4.4"]
2-->6
7["1 DV w/m > 5 GeV: 399 (34.8%) "]
2-->7
8["0 DV w/m>5 GeV: 706 (61.6%) S/sqrt(B) = 7.0"]
2-->8
9["\>=2 matched el: 1234 (80.5%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 81 (5.3%) S/sqrt(B) = 5.4"]
4-->10
11["No matched el: 218 (14.2%) S/sqrt(B) = 2.6"]
4-->11
12["\>=2 matched el: 327 (82.0%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 22 (5.5%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 50 (12.5%) S/sqrt(B) = 4.9"]
7-->14
mS = 600, mZ_{d} = 290, #tau = 2ns(_split_by_nEl)
flowchart TD
0["ee Region: 20514 (41.0%) "]
1["2e: 10885 (53.1%) "]
0-->1
2["\>=2e: 9629 (46.9%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 49 (0.5%) S/sqrt(B) = 3.3"]
1-->3
4["1 DV w/m > 5 GeV: 2797 (25.7%) "]
1-->4
5["0 DV w/m>5 GeV: 8039 (73.9%) S/sqrt(B) = 9.2"]
1-->5
6["\> 1 DV w/m > 5 GeV: 524 (5.4%) S/sqrt(B) = 16.1"]
2-->6
7["1 DV w/m > 5 GeV: 3736 (38.8%) "]
2-->7
8["0 DV w/m>5 GeV: 5369 (55.8%) S/sqrt(B) = 53.2"]
2-->8
9["\>=2 matched el: 1991 (71.2%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 393 (14.1%) S/sqrt(B) = 13.3"]
4-->10
11["No matched el: 413 (14.8%) S/sqrt(B) = 4.9"]
4-->11
12["\>=2 matched el: 3024 (80.9%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 236 (6.3%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 476 (12.7%) S/sqrt(B) = 46.2"]
7-->14
mS = 60, mZ_{d} = 25, #tau = 0.1ns(_split_by_nEl)
flowchart TD
0["ee Region: 1059 (2.1%) "]
1["2e: 641 (60.5%) "]
0-->1
2["\>=2e: 418 (39.5%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 35 (5.5%) S/sqrt(B) = 2.5"]
1-->3
4["1 DV w/m > 5 GeV: 269 (42.0%) "]
1-->4
5["0 DV w/m>5 GeV: 337 (52.6%) S/sqrt(B) = 0.4"]
1-->5
6["\> 1 DV w/m > 5 GeV: 76 (18.2%) S/sqrt(B) = 6.1"]
2-->6
7["1 DV w/m > 5 GeV: 202 (48.3%) "]
2-->7
8["0 DV w/m>5 GeV: 140 (33.5%) S/sqrt(B) = 1.4"]
2-->8
9["\>=2 matched el: 42 (15.6%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 189 (70.3%) S/sqrt(B) = 8.9"]
4-->10
11["No matched el: 38 (14.1%) S/sqrt(B) = 0.4"]
4-->11
12["\>=2 matched el: 141 (69.8%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 42 (20.8%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 19 (9.4%) S/sqrt(B) = 1.8"]
7-->14
mS = 60, mZ_{d} = 25, #tau = 0.5ns(_split_by_nEl)
flowchart TD
0["ee Region: 478 (1.0%) "]
1["2e: 346 (72.4%) "]
0-->1
2["\>=2e: 132 (27.6%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 18 (5.2%) S/sqrt(B) = 1.5"]
1-->3
4["1 DV w/m > 5 GeV: 104 (30.1%) "]
1-->4
5["0 DV w/m>5 GeV: 224 (64.7%) S/sqrt(B) = 0.3"]
1-->5
6["\> 1 DV w/m > 5 GeV: 17 (12.9%) S/sqrt(B) = 2.8"]
2-->6
7["1 DV w/m > 5 GeV: 60 (45.5%) "]
2-->7
8["0 DV w/m>5 GeV: 55 (41.7%) S/sqrt(B) = 0.5"]
2-->8
9["\>=2 matched el: 38 (36.5%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 50 (48.1%) S/sqrt(B) = 3.9"]
4-->10
11["No matched el: 16 (15.4%) S/sqrt(B) = 0.2"]
4-->11
12["\>=2 matched el: 45 (75.0%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 12 (20.0%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 3 (5.0%) S/sqrt(B) = 0.3"]
7-->14
mS = 60, mZ_{d} = 25, #tau = 10ns(_split_by_nEl)
flowchart TD
0["ee Region: 14 (0.0%) "]
1["2e: 14 (100.0%) "]
0-->1
2["\>=2e: 0 (0.0%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
1-->3
4["1 DV w/m > 5 GeV: 3 (21.4%) "]
1-->4
5["0 DV w/m>5 GeV: 11 (78.6%) S/sqrt(B) = 0.0"]
1-->5
6["\> 1 DV w/m > 5 GeV: 0 (-nan%) S/sqrt(B) = -nan"]
2-->6
7["1 DV w/m > 5 GeV: 0 (-nan%) "]
2-->7
8["0 DV w/m>5 GeV: 0 (-nan%) S/sqrt(B) = 0.0"]
2-->8
9["\>=2 matched el: 2 (66.7%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 0 (0.0%) S/sqrt(B) = -nan"]
4-->10
11["No matched el: 1 (33.3%) S/sqrt(B) = 0.0"]
4-->11
12["\>=2 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 0 (-nan%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 0 (-nan%) S/sqrt(B) = 0.0"]
7-->14
mS = 60, mZ_{d} = 25, #tau = 2ns(_split_by_nEl)
flowchart TD
0["ee Region: 98 (0.2%) "]
1["2e: 83 (84.7%) "]
0-->1
2["\>=2e: 15 (15.3%) "]
0-->2
3["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
1-->3
4["1 DV w/m > 5 GeV: 27 (32.5%) "]
1-->4
5["0 DV w/m>5 GeV: 56 (67.5%) S/sqrt(B) = 0.1"]
1-->5
6["\> 1 DV w/m > 5 GeV: 0 (0.0%) S/sqrt(B) = -nan"]
2-->6
7["1 DV w/m > 5 GeV: 7 (46.7%) "]
2-->7
8["0 DV w/m>5 GeV: 8 (53.3%) S/sqrt(B) = 0.1"]
2-->8
9["\>=2 matched el: 16 (59.3%) S/sqrt(B) = -nan"]
4-->9
10["1 matched el: 11 (40.7%) S/sqrt(B) = 1.3"]
4-->10
11["No matched el: 0 (0.0%) S/sqrt(B) = 0.0"]
4-->11
12["\>=2 matched el: 6 (85.7%) S/sqrt(B) = -nan"]
7-->12
13["1 matched el: 1 (14.3%) S/sqrt(B) = -nan"]
7-->13
14["No matched el: 0 (0.0%) S/sqrt(B) = 0.0"]
7-->14