ATLAS paper CERN-PH-EP-2012 / arXiv:1211.7255

Acceptance weights for the inclusive Upsilon(1S) production cross-section as a function of Upsilon(1S) pT in the Upsilon(1S) rapidity (|y|) bin 0<|y|<1.2 for correcting from isotropic (FLAT) spin-alignment scenario to another spin-alignment scenario. The final two columns show weights for two scenarios where $\lambda_{\theta\phi}=\pm 0.5$ and $\lambda_{\theta}=\lambda_{\phi}=0$.
Ecm=7 TeV
RE : P P --> UPSILON(1S) < MU+ MU- > X
ABS(YRAP) : 0.0 - 1.2
PT IN GEV	LONG/FLAT	T+0/FLAT	T++/FLAT	T+-/FLAT	THETAPHI+0.5/FLAT	THETAPHI-0.5/FLAT
0.00 - 0.50	0.73	1.23	1.23	1.21	1.00	1.00
0.50 - 1.00	0.71	1.24	1.32	1.17	1.00	0.99
1.00 - 1.50	0.72	1.27	1.51	1.09	1.03	0.99
1.50 - 2.00	0.71	1.27	2.30	0.87	1.01	1.00
2.00 - 2.50	0.72	1.27	3.19	0.80	1.02	1.02
2.50 - 3.00	0.72	1.25	3.70	0.75	1.00	0.99
3.00 - 3.50	0.73	1.23	3.94	0.73	1.00	0.99
3.50 - 4.00	0.73	1.24	3.98	0.72	1.00	1.00
4.00 - 4.50	0.74	1.22	3.90	0.72	1.00	1.00
4.50 - 5.00	0.75	1.21	3.75	0.71	0.99	1.01
5.00 - 5.50	0.76	1.19	3.53	0.71	0.99	1.01
5.50 - 6.00	0.77	1.18	3.33	0.71	0.99	1.02
6.00 - 6.50	0.78	1.16	3.08	0.71	0.98	1.01
6.50 - 7.00	0.80	1.14	2.85	0.72	0.98	1.02
7.00 - 7.50	0.82	1.12	2.61	0.72	0.98	1.03
7.50 - 8.00	0.84	1.10	2.36	0.71	0.97	1.03
8.00 - 8.50	0.87	1.08	2.11	0.72	0.96	1.04
8.50 - 9.00	0.91	1.06	1.92	0.72	0.96	1.06
9.00 - 9.50	0.94	1.03	1.79	0.73	0.95	1.06
9.50 - 10.00	0.97	1.02	1.69	0.73	0.95	1.06
10.00 - 11.00	1.00	1.00	1.59	0.74	0.94	1.07
11.00 - 12.00	1.02	0.99	1.50	0.74	0.94	1.08
12.00 - 13.00	1.04	0.98	1.42	0.75	0.93	1.08
13.00 - 14.00	1.04	0.98	1.37	0.76	0.93	1.09
14.00 - 15.00	1.06	0.98	1.34	0.77	0.93	1.09
15.00 - 16.00	1.07	0.97	1.31	0.78	0.93	1.10
16.00 - 17.00	1.07	0.97	1.28	0.79	0.93	1.10
17.00 - 18.00	1.07	0.97	1.26	0.79	0.93	1.10
18.00 - 19.00	1.07	0.97	1.24	0.80	0.93	1.10
19.00 - 20.00	1.07	0.97	1.23	0.81	0.93	1.10
20.00 - 21.00	1.07	0.97	1.22	0.81	0.93	1.10
21.00 - 22.00	1.07	0.98	1.20	0.82	0.93	1.09
22.00 - 23.00	1.07	0.98	1.19	0.83	0.93	1.09
23.00 - 24.00	1.06	0.98	1.18	0.83	0.93	1.09
24.00 - 25.00	1.06	0.98	1.18	0.84	0.93	1.09
25.00 - 26.00	1.06	0.98	1.17	0.84	0.93	1.09
26.00 - 27.00	1.06	0.98	1.16	0.85	0.93	1.09
27.00 - 28.00	1.05	0.98	1.16	0.85	0.93	1.08
28.00 - 29.00	1.05	0.98	1.15	0.86	0.94	1.08
29.00 - 30.00	1.05	0.98	1.14	0.86	0.94	1.08
30.00 - 31.00	1.05	0.99	1.14	0.87	0.94	1.08
31.00 - 32.00	1.05	0.99	1.14	0.87	0.94	1.08
32.00 - 34.00	1.05	0.99	1.13	0.87	0.94	1.08
34.00 - 36.00	1.04	0.99	1.12	0.88	0.94	1.07
36.00 - 38.00	1.04	0.99	1.11	0.89	0.95	1.07
38.00 - 40.00	1.04	0.99	1.11	0.89	0.95	1.07
40.00 - 45.00	1.04	0.99	1.10	0.90	0.96	1.07
45.00 - 50.00	1.04	0.99	1.09	0.91	0.96	1.06
50.00 - 60.00	1.03	1.00	1.08	0.93	0.96	1.06
60.00 - 70.00	1.02	1.00	1.07	0.94	0.97	1.05

Acceptance weights for the inclusive Upsilon(1S) production cross-section as a function of Upsilon(1S) pT in the Upsilon(1S) rapidity (|y|) bin 1.2<|y|<2.25 for correcting from isotropic (FLAT) spin-alignment scenario to another spin-alignment scenario. The final two columns show weights for two scenarios where $\lambda_{\theta\phi}=\pm 0.5$ and $\lambda_{\theta}=\lambda_{\phi}=0$.
Ecm=7 TeV
RE : P P --> UPSILON(1S) < MU+ MU- > X
ABS(YRAP) : 1.2 - 2.25
PT IN GEV	LONG/FLAT	T+0/FLAT	T++/FLAT	T+-/FLAT	THETAPHI+0.5/FLAT	THETAPHI-0.5/FLAT
0.00 - 0.50	0.70	1.23	1.25	1.25	0.99	0.97
0.50 - 1.00	0.70	1.27	1.35	1.23	1.03	0.97
1.00 - 1.50	0.74	1.41	1.48	1.24	1.07	1.00
1.50 - 2.00	0.65	1.22	2.07	0.85	0.99	0.89
2.00 - 2.50	0.70	1.26	3.17	0.79	1.02	0.97
2.50 - 3.00	0.71	1.24	3.85	0.76	0.99	0.94
3.00 - 3.50	0.71	1.24	4.21	0.74	1.01	0.99
3.50 - 4.00	0.73	1.25	4.49	0.74	1.00	0.95
4.00 - 4.50	0.71	1.25	4.51	0.73	1.00	1.00
4.50 - 5.00	0.72	1.24	4.53	0.72	1.01	0.98
5.00 - 5.50	0.73	1.23	4.49	0.72	1.01	1.00
5.50 - 6.00	0.73	1.23	4.29	0.72	1.01	1.00
6.00 - 6.50	0.74	1.21	4.16	0.72	1.00	1.00
6.50 - 7.00	0.75	1.21	4.01	0.72	1.00	1.01
7.00 - 7.50	0.76	1.20	3.89	0.72	0.99	1.01
7.50 - 8.00	0.77	1.19	3.68	0.73	0.99	1.02
8.00 - 8.50	0.78	1.18	3.44	0.73	0.99	1.02
8.50 - 9.00	0.79	1.17	3.36	0.73	0.98	1.03
9.00 - 9.50	0.79	1.16	3.26	0.73	0.98	1.03
9.50 - 10.00	0.81	1.15	3.01	0.74	0.97	1.04
10.00 - 11.00	0.83	1.13	2.81	0.74	0.96	1.05
11.00 - 12.00	0.84	1.12	2.59	0.75	0.96	1.06
12.00 - 13.00	0.86	1.11	2.48	0.76	0.96	1.07
13.00 - 14.00	0.87	1.10	2.29	0.77	0.95	1.08
14.00 - 15.00	0.88	1.09	2.13	0.78	0.94	1.08
15.00 - 16.00	0.90	1.08	1.95	0.79	0.94	1.10
16.00 - 17.00	0.89	1.09	2.02	0.79	0.95	1.09
17.00 - 18.00	0.91	1.07	1.96	0.81	0.95	1.11
18.00 - 19.00	0.91	1.06	1.74	0.81	0.93	1.09
19.00 - 20.00	0.91	1.07	1.74	0.83	0.95	1.11
20.00 - 21.00	0.93	1.06	1.55	0.85	0.92	1.12
21.00 - 22.00	0.92	1.06	1.62	0.84	0.93	1.11
22.00 - 23.00	0.92	1.06	1.51	0.86	0.93	1.12
23.00 - 24.00	0.93	1.05	1.50	0.86	0.92	1.12
24.00 - 25.00	0.93	1.06	1.48	0.87	0.93	1.13
25.00 - 26.00	0.96	1.05	1.37	0.88	0.92	1.12
26.00 - 27.00	0.93	1.05	1.44	0.88	0.92	1.12
27.00 - 28.00	0.94	1.05	1.35	0.89	0.92	1.12
28.00 - 29.00	0.91	1.06	1.35	0.87	0.91	1.12
29.00 - 30.00	0.94	1.05	1.49	0.88	0.94	1.11
30.00 - 31.00	0.95	1.05	1.43	0.88	0.93	1.10
31.00 - 32.00	0.94	1.04	1.43	0.89	0.94	1.11
32.00 - 34.00	0.94	1.04	1.24	0.91	0.93	1.12
34.00 - 36.00	0.94	1.05	1.31	0.93	0.94	1.11
36.00 - 38.00	0.95	1.12	1.26	0.93	0.93	1.10
38.00 - 40.00	0.94	1.05	1.17	0.97	0.92	1.11
40.00 - 45.00	0.95	1.05	1.05	0.96	0.95	1.12
45.00 - 50.00	0.98	1.06	1.22	0.95	0.98	1.14
50.00 - 60.00	0.95	1.05	1.13	1.00	0.96	1.10
60.00 - 70.00	0.98	1.04	1.18	0.94	0.96	1.11

Acceptance weights for the inclusive Upsilon(2S) production cross-section as a function of Upsilon(2S) pT in the Upsilon(2S) rapidity (|y|) bin 0<|y|<1.2 for correcting from isotropic (FLAT) spin-alignment scenario to another spin-alignment scenario. The final two columns show weights for two scenarios where $\lambda_{\theta\phi}=\pm 0.5$ and $\lambda_{\theta}=\lambda_{\phi}=0$.
Ecm=7 TeV
RE : P P --> UPSILON(2S) < MU+ MU- > X
ABS(YRAP) : 0.0 - 1.2
PT IN GEV	LONG/FLAT	T+0/FLAT	T++/FLAT	T+-/FLAT	THETAPHI+0.5/FLAT	THETAPHI-0.5/FLAT
0.00 - 1.00	0.73	1.20	1.24	1.17	1.00	0.98
1.00 - 2.00	0.72	1.24	1.39	1.11	1.00	0.99
2.00 - 3.00	0.72	1.25	2.10	0.88	0.99	1.00
3.00 - 4.00	0.74	1.22	2.89	0.76	1.00	0.99
4.00 - 5.00	0.75	1.19	3.08	0.75	1.00	1.01
5.00 - 6.00	0.77	1.17	2.94	0.73	0.99	1.01
6.00 - 7.00	0.79	1.14	2.66	0.73	0.98	1.01
7.00 - 8.00	0.83	1.11	2.33	0.72	0.97	1.02
8.00 - 9.00	0.89	1.07	1.97	0.73	0.96	1.03
9.00 - 10.00	0.95	1.03	1.73	0.73	0.96	1.05
10.00 - 12.00	1.01	1.00	1.56	0.74	0.95	1.07
12.00 - 14.00	1.04	0.99	1.41	0.76	0.93	1.08
14.00 - 16.00	1.06	0.98	1.33	0.77	0.93	1.09
16.00 - 18.00	1.07	0.97	1.28	0.79	0.93	1.09
18.00 - 20.00	1.07	0.98	1.24	0.80	0.93	1.09
20.00 - 22.00	1.06	0.98	1.21	0.82	0.93	1.09
22.00 - 24.00	1.06	0.98	1.19	0.83	0.93	1.09
24.00 - 26.00	1.06	0.98	1.17	0.84	0.93	1.09
26.00 - 28.00	1.06	0.98	1.16	0.85	0.94	1.08
28.00 - 30.00	1.05	0.98	1.15	0.86	0.94	1.08
30.00 - 32.00	1.05	0.98	1.14	0.87	0.94	1.08
32.00 - 36.00	1.05	0.98	1.13	0.88	0.94	1.07
36.00 - 40.00	1.04	0.99	1.11	0.89	0.95	1.08
40.00 - 50.00	1.04	0.99	1.10	0.90	0.96	1.06
50.00 - 70.00	1.03	1.00	1.08	0.93	0.96	1.05

Acceptance weights for the inclusive Upsilon(2S) production cross-section as a function of Upsilon(2S) pT in the Upsilon(2S) rapidity (|y|) bin 1.2<|y|<2.25 for correcting from isotropic (FLAT) spin-alignment scenario to another spin-alignment scenario. The final two columns show weights for two scenarios where $\lambda_{\theta\phi}=\pm 0.5$ and $\lambda_{\theta}=\lambda_{\phi}=0$.
Ecm=7 TeV
RE : P P --> UPSILON(2S) < MU+ MU- > X
ABS(YRAP) : 1.2 - 2.25
PT IN GEV	LONG/FLAT	T+0/FLAT	T++/FLAT	T+-/FLAT	THETAPHI+0.5/FLAT	THETAPHI-0.5/FLAT
0.00 - 1.00	0.72	1.26	1.26	1.24	1.01	1.01
1.00 - 2.00	0.74	1.32	1.35	1.23	1.10	0.95
2.00 - 3.00	0.69	1.22	2.01	0.93	1.01	0.97
3.00 - 4.00	0.73	1.25	3.11	0.78	1.03	0.99
4.00 - 5.00	0.73	1.23	3.47	0.75	0.99	0.97
5.00 - 6.00	0.73	1.23	3.63	0.74	1.01	0.99
6.00 - 7.00	0.74	1.22	3.68	0.73	1.01	0.99
7.00 - 8.00	0.76	1.19	3.43	0.73	1.00	1.00
8.00 - 9.00	0.78	1.18	3.21	0.73	0.99	1.01
9.00 - 10.00	0.80	1.15	2.96	0.74	0.99	1.02
10.00 - 12.00	0.82	1.14	2.75	0.75	0.98	1.03
12.00 - 14.00	0.86	1.11	2.35	0.76	0.97	1.05
14.00 - 16.00	0.87	1.09	2.18	0.77	0.96	1.07
16.00 - 18.00	0.89	1.07	1.88	0.79	0.94	1.08
18.00 - 20.00	0.91	1.06	1.74	0.81	0.94	1.09
20.00 - 22.00	0.92	1.06	1.70	0.82	0.93	1.09
22.00 - 24.00	0.94	1.05	1.46	0.85	0.92	1.12
24.00 - 26.00	0.94	1.05	1.56	0.85	0.94	1.11
26.00 - 28.00	0.93	1.06	1.52	0.86	0.94	1.10
28.00 - 30.00	0.95	1.06	1.28	0.92	0.93	1.13
30.00 - 32.00	0.93	1.06	1.50	0.88	0.94	1.09
32.00 - 36.00	0.95	1.04	1.26	0.92	0.93	1.11
36.00 - 40.00	0.96	1.04	1.21	0.94	0.93	1.12
40.00 - 50.00	0.96	1.04	1.38	0.92	1.01	1.08

Acceptance weights for the inclusive Upsilon(3S) production cross-section as a function of Upsilon(3S) pT in the Upsilon(3S) rapidity (|y|) bin 0<|y|<1.2 for correcting from isotropic (FLAT) spin-alignment scenario to another spin-alignment scenario. The final two columns show weights for two scenarios where $\lambda_{\theta\phi}=\pm 0.5$ and $\lambda_{\theta}=\lambda_{\phi}=0$.
Ecm=7 TeV
RE : P P --> UPSILON(3S) < MU+ MU- > X
ABS(YRAP) : 0.0 - 1.2
PT IN GEV	LONG/FLAT	T+0/FLAT	T++/FLAT	T+-/FLAT	THETAPHI+0.5/FLAT	THETAPHI-0.5/FLAT
0.00 - 1.00	0.75	1.20	1.23	1.18	1.01	1.00
1.00 - 2.00	0.74	1.20	1.32	1.13	1.03	0.98
2.00 - 3.00	0.73	1.24	1.69	1.00	1.04	1.00
3.00 - 4.00	0.76	1.20	2.41	0.81	1.00	1.00
4.00 - 5.00	0.76	1.18	2.70	0.76	0.99	0.99
5.00 - 6.00	0.77	1.17	2.70	0.74	1.00	1.00
6.00 - 7.00	0.78	1.13	2.46	0.72	0.96	1.00
7.00 - 8.00	0.84	1.11	2.29	0.74	0.99	1.02
8.00 - 9.00	0.89	1.07	1.92	0.74	0.95	1.03
9.00 - 10.00	0.95	1.03	1.72	0.74	0.96	1.05
10.00 - 12.00	0.99	1.01	1.53	0.75	0.95	1.06
12.00 - 14.00	1.03	0.99	1.40	0.76	0.94	1.07
14.00 - 16.00	1.05	0.98	1.33	0.78	0.93	1.09
16.00 - 18.00	1.06	0.97	1.27	0.79	0.93	1.09
18.00 - 20.00	1.07	0.97	1.24	0.80	0.93	1.09
20.00 - 22.00	1.07	0.97	1.21	0.82	0.93	1.09
22.00 - 24.00	1.06	0.98	1.19	0.83	0.93	1.09
24.00 - 26.00	1.06	0.98	1.17	0.84	0.93	1.09
26.00 - 28.00	1.06	0.98	1.16	0.84	0.94	1.08
28.00 - 30.00	1.05	0.97	1.14	0.85	0.94	1.07
30.00 - 32.00	1.05	0.98	1.14	0.87	0.94	1.08
32.00 - 36.00	1.05	0.99	1.13	0.87	0.95	1.07
36.00 - 40.00	1.04	0.99	1.11	0.88	0.94	1.07
40.00 - 50.00	1.04	0.99	1.10	0.90	0.96	1.06
50.00 - 70.00	1.03	0.99	1.08	0.92	0.96	1.05

Acceptance weights for the inclusive Upsilon(3S) production cross-section as a function of Upsilon(3S) pT in the Upsilon(3S) rapidity (|y|) bin 1.2<|y|<2.25 for correcting from isotropic (FLAT) spin-alignment scenario to another spin-alignment scenario. The final two columns show weights for two scenarios where $\lambda_{\theta\phi}=\pm 0.5$ and $\lambda_{\theta}=\lambda_{\phi}=0$.
Ecm=7 TeV
RE : P P --> UPSILON(3S) < MU+ MU- > X
ABS(YRAP) : 1.2 - 2.25
PT IN GEV	LONG/FLAT	T+0/FLAT	T++/FLAT	T+-/FLAT	THETAPHI+0.5/FLAT	THETAPHI-0.5/FLAT
0.00 - 1.00	0.72	1.29	1.31	1.29	1.03	0.98
1.00 - 2.00	0.87	1.27	1.27	1.42	1.25	1.00
2.00 - 3.00	0.73	1.25	1.47	1.12	1.18	0.93
3.00 - 4.00	0.71	1.21	2.41	0.82	1.01	0.96
4.00 - 5.00	0.71	1.20	2.97	0.75	0.99	0.96
5.00 - 6.00	0.75	1.23	3.11	0.75	1.02	0.98
6.00 - 7.00	0.75	1.20	3.19	0.75	1.00	0.98
7.00 - 8.00	0.76	1.19	3.13	0.74	1.00	0.99
8.00 - 9.00	0.78	1.17	3.06	0.74	1.00	0.99
9.00 - 10.00	0.79	1.15	2.89	0.74	1.00	0.99
10.00 - 12.00	0.83	1.13	2.51	0.74	0.98	1.03
12.00 - 14.00	0.87	1.11	2.28	0.76	0.97	1.06
14.00 - 16.00	0.89	1.07	1.92	0.77	0.94	1.07
16.00 - 18.00	0.88	1.10	2.17	0.78	0.97	1.06
18.00 - 20.00	0.90	1.07	1.91	0.79	0.96	1.07
20.00 - 22.00	0.93	1.05	1.62	0.82	0.93	1.10
22.00 - 24.00	0.92	1.07	1.69	0.83	0.95	1.07
24.00 - 26.00	0.93	1.05	1.53	0.85	0.93	1.10
26.00 - 28.00	0.95	1.05	1.40	0.86	0.94	1.11
28.00 - 30.00	0.98	1.07	1.42	0.88	0.95	1.09
30.00 - 32.00	0.97	1.07	1.18	0.93	0.94	1.16
32.00 - 36.00	0.97	1.05	1.34	0.91	0.96	1.13
36.00 - 40.00	0.97	1.04	1.37	0.89	0.94	1.08
40.00 - 50.00	0.95	1.07	0.96	0.93	0.93	1.11