1 PYTHIA settings will be read from file main16.cmnd
3 *------------------------------------------------------------------------------------*
5 | *------------------------------------------------------------------------------* |
8 | | PPP Y Y TTTTT H H III A Welcome to the Lund Monte Carlo! | |
9 | | P P Y Y T H H I A A This is PYTHIA version 8.175 | |
10 | | PPP Y T HHHHH I AAAAA Last date of change: 16 Feb 2013 | |
11 | | P Y T H H I A A | |
12 | | P Y T H H III A A Now is 16 Feb 2013 at 11:33:59 | |
14 | | Torbjorn Sjostrand; Department of Astronomy and Theoretical Physics, | |
15 | | Lund University, Solvegatan 14A, SE-223 62 Lund, Sweden; | |
16 | | phone: + 46 - 46 - 222 48 16; e-mail: torbjorn@thep.lu.se | |
17 | | Jesper Roy Christiansen; Department of Astronomy and Theoretical Physics | |
18 | | Lund University, Solvegatan 14A, SE-223 62 Lund, Sweden; | |
19 | | e-mail: Jesper.Roy.Christiansen@thep.lu.se | |
20 | | Philip Ilten; School of Physics, Uniiversity College Dublin, | |
21 | | Belfield, Dublin 4, Ireland; | |
22 | | e-mail: philten@cern.ch | |
23 | | Stephen Mrenna; Computing Division, Simulations Group, | |
24 | | Fermi National Accelerator Laboratory, MS 234, Batavia, IL 60510, USA; | |
25 | | phone: + 1 - 630 - 840 - 2556; e-mail: mrenna@fnal.gov | |
26 | | Stefan Prestel; Department of Astronomy and Theoretical Physics, | |
27 | | Lund University, Solvegatan 14A, SE-223 62 Lund, Sweden; | |
28 | | phone: + 46 - 46 - 222 06 64; e-mail: stefan.prestel@thep.lu.se | |
29 | | Peter Skands; Theoretical Physics, CERN, CH-1211 Geneva 23, Switzerland; | |
30 | | phone: + 41 - 22 - 767 2447; e-mail: peter.skands@cern.ch | |
31 | | Stefan Ask; former author; e-mail: ask.stefan@gmail.com | |
32 | | Richard Corke; former author; e-mail: r.corke@errno.net | |
34 | | The main program reference is the 'Brief Introduction to PYTHIA 8.1', | |
35 | | T. Sjostrand, S. Mrenna and P. Skands, Comput. Phys. Comm. 178 (2008) 85 | |
36 | | [arXiv:0710.3820] | |
38 | | The main physics reference is the 'PYTHIA 6.4 Physics and Manual', | |
39 | | T. Sjostrand, S. Mrenna and P. Skands, JHEP05 (2006) 026 [hep-ph/0603175]. | |
41 | | An archive of program versions and documentation is found on the web: | |
42 | | http://www.thep.lu.se/~torbjorn/Pythia.html | |
44 | | This program is released under the GNU General Public Licence version 2. | |
45 | | Please respect the MCnet Guidelines for Event Generator Authors and Users. | |
47 | | Disclaimer: this program comes without any guarantees. | |
48 | | Beware of errors and use common sense when interpreting results. | |
50 | | Copyright (C) 2013 Torbjorn Sjostrand | |
53 | *------------------------------------------------------------------------------* |
55 *------------------------------------------------------------------------------------*
58 *------- PYTHIA Process Initialization --------------------------*
60 | We collide p+ with p+ at a CM energy of 1.400e+04 GeV |
62 |------------------------------------------------------------------|
64 | Subprocess Code | Estimated |
67 |------------------------------------------------------------------|
69 | g g -> H (SM) 902 | 2.154e-07 |
71 *------- End PYTHIA Process Initialization -----------------------*
73 *------- PYTHIA Multiparton Interactions Initialization ---------*
75 | minbias, sigmaNonDiffractive = 57.54 mb |
77 | pT0 = 3.08 gives sigmaInteraction = 270.41 mb: accepted |
79 *------- End PYTHIA Multiparton Interactions Initialization -----*
81 *------- PYTHIA Flag + Mode + Parm + Vect + Word Settings (changes only) ---------------------------------------*
83 | Name | Now | Default Min Max |
85 | BeamRemnants:reconnectRange | 1.50000 | 10.00000 0.0 10.00000 |
86 | HiggsSM:gg2H | on | off |
87 | Init:showOneParticleData | 25 | 0 0 |
88 | MultipartonInteractions:alphaSvalue | 0.13500 | 0.12700 0.0600000 0.25000 |
89 | MultipartonInteractions:bProfile | 3 | 1 0 4 |
90 | MultipartonInteractions:ecmPow | 0.19000 | 0.24000 0.0 0.50000 |
91 | MultipartonInteractions:expPow | 2.00000 | 1.00000 0.40000 10.00000 |
92 | MultipartonInteractions:pT0Ref | 2.08500 | 2.15000 0.50000 10.00000 |
93 | Next:numberCount | 100 | 1000 0 |
94 | Next:numberShowEvent | 0 | 1 0 |
95 | PDF:pSet | 8 | 2 1 12 |
96 | SigmaDiffractive:dampen | on | off |
97 | SigmaDiffractive:maxAX | 65.00000 | 15.00000 0.0 |
98 | SigmaDiffractive:maxXB | 65.00000 | 15.00000 0.0 |
99 | SigmaDiffractive:maxXX | 65.00000 | 15.00000 0.0 |
100 | SigmaProcess:alphaSvalue | 0.13500 | 0.12650 0.0600000 0.25000 |
101 | SigmaTotal:zeroAXB | on | off |
102 | SpaceShower:rapidityOrder | on | off |
103 | Stat:showPartonLevel | on | off |
105 *------- End PYTHIA Flag + Mode + Parm + Vect + Word Settings --------------------------------------------------*
107 -------- PYTHIA Particle Data Table (partial) -----------------------------------------------------------------------------------
109 id name antiName spn chg col m0 mWidth mMin mMax tau0 res dec ext vis wid
110 no onMode bRatio meMode products
112 25 h0(H_1) 1 0 0 123.50000 0.00357 123.32163 123.67837 0.00000e+00 1 1 0 0 0
119 6 1 0.0000000 0 11 -11
120 7 1 0.0002537 0 13 -13
121 8 1 0.0716453 0 15 -15
122 9 1 0.0638980 0 21 21
123 10 1 0.0028389 0 22 22
124 11 1 0.0016120 0 22 23
125 12 1 0.0223761 0 23 23
126 13 1 0.1915867 0 24 -24
127 14 1 0.0000000 103 1000022 1000022
128 15 1 0.0000000 103 1000023 1000022
129 16 1 0.0000000 103 1000023 1000023
130 17 1 0.0000000 103 1000025 1000022
131 18 1 0.0000000 103 1000025 1000023
132 19 1 0.0000000 103 1000025 1000025
133 20 1 0.0000000 103 1000035 1000022
134 21 1 0.0000000 103 1000035 1000023
135 22 1 0.0000000 103 1000035 1000025
136 23 1 0.0000000 103 1000035 1000035
137 24 1 0.0000000 103 1000024 -1000024
138 25 1 0.0000000 103 1000024 -1000037
139 26 1 0.0000000 103 1000037 -1000024
140 27 1 0.0000000 103 1000037 -1000037
141 28 1 0.0000000 103 1000001 -1000001
142 29 1 0.0000000 103 2000001 -2000001
143 30 1 0.0000000 103 1000001 -2000001
144 31 1 0.0000000 103 -1000001 2000001
145 32 1 0.0000000 103 1000002 -1000002
146 33 1 0.0000000 103 2000002 -2000002
147 34 1 0.0000000 103 1000002 -2000002
148 35 1 0.0000000 103 -1000002 2000002
149 36 1 0.0000000 103 1000003 -1000003
150 37 1 0.0000000 103 2000003 -2000003
151 38 1 0.0000000 103 1000003 -2000003
152 39 1 0.0000000 103 -1000003 2000003
153 40 1 0.0000000 103 1000004 -1000004
154 41 1 0.0000000 103 2000004 -2000004
155 42 1 0.0000000 103 1000004 -2000004
156 43 1 0.0000000 103 -1000004 2000004
157 44 1 0.0000000 103 1000005 -1000005
158 45 1 0.0000000 103 2000005 -2000005
159 46 1 0.0000000 103 1000005 -2000005
160 47 1 0.0000000 103 -1000005 2000005
161 48 1 0.0000000 103 1000006 -1000006
162 49 1 0.0000000 103 2000006 -2000006
163 50 1 0.0000000 103 1000006 -2000006
164 51 1 0.0000000 103 -1000006 2000006
165 52 1 0.0000000 103 1000011 -1000011
166 53 1 0.0000000 103 2000011 -2000011
167 54 1 0.0000000 103 1000011 -2000011
168 55 1 0.0000000 103 -1000011 2000011
169 56 1 0.0000000 103 1000012 -1000012
170 57 1 0.0000000 103 2000012 -2000012
171 58 1 0.0000000 103 1000012 -2000012
172 59 1 0.0000000 103 -1000012 2000012
173 60 1 0.0000000 103 1000013 -1000013
174 61 1 0.0000000 103 2000013 -2000013
175 62 1 0.0000000 103 1000013 -2000013
176 63 1 0.0000000 103 -1000013 2000013
177 64 1 0.0000000 103 1000014 -1000014
178 65 1 0.0000000 103 2000014 -2000014
179 66 1 0.0000000 103 1000014 -2000014
180 67 1 0.0000000 103 -1000014 2000014
181 68 1 0.0000000 103 1000015 -1000015
182 69 1 0.0000000 103 2000015 -2000015
183 70 1 0.0000000 103 1000015 -2000015
184 71 1 0.0000000 103 -1000015 2000015
185 72 1 0.0000000 103 1000016 -1000016
186 73 1 0.0000000 103 2000016 -2000016
187 74 1 0.0000000 103 1000016 -2000016
188 75 1 0.0000000 103 -1000016 2000016
190 -------- End PYTHIA Particle Data Table -----------------------------------------------------------------------------------------
193 -------- PYTHIA Particle Data Table (changed only) ------------------------------------------------------------------------------
195 id name antiName spn chg col m0 mWidth mMin mMax tau0 res dec ext vis wid
196 no onMode bRatio meMode products
198 25 h0(H_1) 1 0 0 123.50000 0.00357 123.32163 123.67837 0.00000e+00 1 1 0 0 0
205 6 1 0.0000000 0 11 -11
206 7 1 0.0002537 0 13 -13
207 8 1 0.0716453 0 15 -15
208 9 1 0.0638980 0 21 21
209 10 1 0.0028389 0 22 22
210 11 1 0.0016120 0 22 23
211 12 1 0.0223761 0 23 23
212 13 1 0.1915867 0 24 -24
213 14 1 0.0000000 103 1000022 1000022
214 15 1 0.0000000 103 1000023 1000022
215 16 1 0.0000000 103 1000023 1000023
216 17 1 0.0000000 103 1000025 1000022
217 18 1 0.0000000 103 1000025 1000023
218 19 1 0.0000000 103 1000025 1000025
219 20 1 0.0000000 103 1000035 1000022
220 21 1 0.0000000 103 1000035 1000023
221 22 1 0.0000000 103 1000035 1000025
222 23 1 0.0000000 103 1000035 1000035
223 24 1 0.0000000 103 1000024 -1000024
224 25 1 0.0000000 103 1000024 -1000037
225 26 1 0.0000000 103 1000037 -1000024
226 27 1 0.0000000 103 1000037 -1000037
227 28 1 0.0000000 103 1000001 -1000001
228 29 1 0.0000000 103 2000001 -2000001
229 30 1 0.0000000 103 1000001 -2000001
230 31 1 0.0000000 103 -1000001 2000001
231 32 1 0.0000000 103 1000002 -1000002
232 33 1 0.0000000 103 2000002 -2000002
233 34 1 0.0000000 103 1000002 -2000002
234 35 1 0.0000000 103 -1000002 2000002
235 36 1 0.0000000 103 1000003 -1000003
236 37 1 0.0000000 103 2000003 -2000003
237 38 1 0.0000000 103 1000003 -2000003
238 39 1 0.0000000 103 -1000003 2000003
239 40 1 0.0000000 103 1000004 -1000004
240 41 1 0.0000000 103 2000004 -2000004
241 42 1 0.0000000 103 1000004 -2000004
242 43 1 0.0000000 103 -1000004 2000004
243 44 1 0.0000000 103 1000005 -1000005
244 45 1 0.0000000 103 2000005 -2000005
245 46 1 0.0000000 103 1000005 -2000005
246 47 1 0.0000000 103 -1000005 2000005
247 48 1 0.0000000 103 1000006 -1000006
248 49 1 0.0000000 103 2000006 -2000006
249 50 1 0.0000000 103 1000006 -2000006
250 51 1 0.0000000 103 -1000006 2000006
251 52 1 0.0000000 103 1000011 -1000011
252 53 1 0.0000000 103 2000011 -2000011
253 54 1 0.0000000 103 1000011 -2000011
254 55 1 0.0000000 103 -1000011 2000011
255 56 1 0.0000000 103 1000012 -1000012
256 57 1 0.0000000 103 2000012 -2000012
257 58 1 0.0000000 103 1000012 -2000012
258 59 1 0.0000000 103 -1000012 2000012
259 60 1 0.0000000 103 1000013 -1000013
260 61 1 0.0000000 103 2000013 -2000013
261 62 1 0.0000000 103 1000013 -2000013
262 63 1 0.0000000 103 -1000013 2000013
263 64 1 0.0000000 103 1000014 -1000014
264 65 1 0.0000000 103 2000014 -2000014
265 66 1 0.0000000 103 1000014 -2000014
266 67 1 0.0000000 103 -1000014 2000014
267 68 1 0.0000000 103 1000015 -1000015
268 69 1 0.0000000 103 2000015 -2000015
269 70 1 0.0000000 103 1000015 -2000015
270 71 1 0.0000000 103 -1000015 2000015
271 72 1 0.0000000 103 1000016 -1000016
272 73 1 0.0000000 103 2000016 -2000016
273 74 1 0.0000000 103 1000016 -2000016
274 75 1 0.0000000 103 -1000016 2000016
276 -------- End PYTHIA Particle Data Table -----------------------------------------------------------------------------------------
279 -------- PYTHIA Info Listing ----------------------------------------
281 Beam A: id = 2212, pz = 7.000e+03, e = 7.000e+03, m = 9.383e-01.
282 Beam B: id = 2212, pz = -7.000e+03, e = 7.000e+03, m = 9.383e-01.
284 In 1: id = 21, x = 3.721e-03, pdf = 1.709e+01 at Q2 = 1.525e+04.
285 In 2: id = 21, x = 2.091e-02, pdf = 4.618e+00 at same Q2.
287 Subprocess g g -> H (SM) with code 902 is 2 -> 1.
288 It has sHat = 1.525e+04.
289 alphaEM = 7.844e-03, alphaS = 1.286e-01 at Q2 = 1.525e+04.
291 Impact parameter b = 8.974e-01 gives enhancement factor = 9.479e-01.
292 Max pT scale for MPI = 1.400e+04, ISR = 1.400e+04, FSR = 1.400e+04.
293 Number of MPI = 2, ISR = 8, FSRproc = 40, FSRreson = 7.
295 -------- End PYTHIA Info Listing ------------------------------------
297 -------- PYTHIA Event Listing (hard process) -----------------------------------------------------------------------------------
299 no id name status mothers daughters colours p_x p_y p_z e m
300 0 90 (system) -11 0 0 0 0 0 0 0.000 0.000 0.000 14000.000 14000.000
301 1 2212 (p+) -12 0 0 3 0 0 0 0.000 0.000 7000.000 7000.000 0.938
302 2 2212 (p+) -12 0 0 4 0 0 0 0.000 0.000 -7000.000 7000.000 0.938
303 3 21 (g) -21 1 0 5 0 101 102 0.000 0.000 26.048 26.048 0.000
304 4 21 (g) -21 2 0 5 0 102 101 0.000 0.000 -146.387 146.387 0.000
305 5 25 (h0(H_1)) -22 3 4 6 7 0 0 0.000 0.000 -120.338 172.435 123.501
306 6 5 b 23 5 0 0 0 103 0 -48.883 -24.075 -20.166 58.300 4.800
307 7 -5 bbar 23 5 0 0 0 0 103 48.883 24.075 -100.172 114.135 4.800
308 Charge sum: 0.000 Momentum sum: 0.000 0.000 -120.338 172.435 123.501
310 -------- End PYTHIA Event Listing -----------------------------------------------------------------------------------------------
312 Pythia::next(): 100 events have been generated
314 Pythia::next(): 200 events have been generated
316 Pythia::next(): 300 events have been generated
317 PYTHIA Error in StringFragmentation::fragment: stuck in joining
318 PYTHIA Error in Pythia::next: hadronLevel failed; try again
320 Pythia::next(): 400 events have been generated
322 Pythia::next(): 500 events have been generated
324 Pythia::next(): 600 events have been generated
326 Pythia::next(): 700 events have been generated
327 PYTHIA Error in StringFragmentation::fragmentToJunction: caught in junction flavour loop
328 PYTHIA Warning in StringFragmentation::fragmentToJunction: bad convergence junction rest frame
330 Pythia::next(): 800 events have been generated
332 Pythia::next(): 900 events have been generated
334 *------- PYTHIA Event and Cross Section Statistics -------------------------------------------------------------*
336 | Subprocess Code | Number of events | sigma +- delta |
337 | | Tried Selected Accepted | (estimated) (mb) |
339 |-----------------------------------------------------------------------------------------------------------------|
341 | g g -> H (SM) 902 | 9389 1000 1000 | 2.255e-08 5.412e-10 |
343 | sum | 9389 1000 1000 | 2.255e-08 5.412e-10 |
345 *------- End PYTHIA Event and Cross Section Statistics ----------------------------------------------------------*
347 *------- PYTHIA Multiparton Interactions Statistics --------*
349 | Note: excludes hardest subprocess if already listed above |
351 | Subprocess Code | Times |
353 |-------------------------------------------------------------|
355 | g g -> g g 111 | 4701 |
356 | g g -> q qbar (uds) 112 | 58 |
357 | q g -> q g 113 | 1791 |
358 | q q(bar)' -> q q(bar)' 114 | 159 |
359 | q qbar -> g g 115 | 0 |
360 | q qbar -> q' qbar' (uds) 116 | 2 |
361 | g g -> c cbar 121 | 17 |
362 | q qbar -> c cbar 122 | 1 |
363 | g g -> b bbar 123 | 5 |
364 | q qbar -> b bbar 124 | 0 |
365 | q g -> q gamma (udscb) 201 | 0 |
366 | q qbar -> g gamma 202 | 1 |
367 | g g -> g gamma 203 | 0 |
368 | f fbar -> gamma gamma 204 | 0 |
369 | g g -> gamma gamma 205 | 0 |
370 | f f' -> f f' (t-channel gamma*/Z0) 211 | 0 |
371 | f_1 f_2 -> f_3 f_4 (t-channel W+-) 212 | 0 |
372 | f fbar -> f' fbar' (s-channel gamma*) 223 | 0 |
373 | g g -> ccbar[3S1(1)] g 401 | 0 |
374 | g g -> ccbar[3P0(1)] g 402 | 2 |
375 | g g -> ccbar[3P1(1)] g 403 | 1 |
376 | g g -> ccbar[3P2(1)] g 404 | 5 |
377 | q g -> ccbar[3P0(1)] q 405 | 3 |
378 | q g -> ccbar[3P1(1)] q 406 | 0 |
379 | q g -> ccbar[3P2(1)] q 407 | 1 |
380 | q qbar -> ccbar[3P0(1)] g 408 | 0 |
381 | q qbar -> ccbar[3P1(1)] g 409 | 0 |
382 | q qbar -> ccbar[3P2(1)] g 410 | 0 |
383 | g g -> ccbar[3S1(8)] g 411 | 0 |
384 | g g -> ccbar[1S0(8)] g 412 | 0 |
385 | g g -> ccbar[3PJ(8)] g 413 | 0 |
386 | q g -> ccbar[3S1(8)] q 414 | 0 |
387 | q g -> ccbar[1S0(8)] q 415 | 0 |
388 | q g -> ccbar[3PJ(8)] q 416 | 0 |
389 | q qbar -> ccbar[3S1(8)] g 417 | 0 |
390 | q qbar -> ccbar[1S0(8)] g 418 | 0 |
391 | q qbar -> ccbar[3PJ(8)] g 419 | 0 |
392 | g g -> bbbar[3S1(1)] g 501 | 0 |
393 | g g -> bbbar[3P0(1)] g 502 | 0 |
394 | g g -> bbbar[3P1(1)] g 503 | 0 |
395 | g g -> bbbar[3P2(1)] g 504 | 0 |
396 | q g -> bbbar[3P0(1)] q 505 | 0 |
397 | q g -> bbbar[3P1(1)] q 506 | 0 |
398 | q g -> bbbar[3P2(1)] q 507 | 0 |
399 | q qbar -> bbbar[3P0(1)] g 508 | 0 |
400 | q qbar -> bbbar[3P1(1)] g 509 | 0 |
401 | q qbar -> bbbar[3P2(1)] g 510 | 0 |
402 | g g -> bbbar[3S1(8)] g 511 | 0 |
403 | g g -> bbbar[1S0(8)] g 512 | 0 |
404 | g g -> bbbar[3PJ(8)] g 513 | 0 |
405 | q g -> bbbar[3S1(8)] q 514 | 0 |
406 | q g -> bbbar[1S0(8)] q 515 | 0 |
407 | q g -> bbbar[3PJ(8)] q 516 | 0 |
408 | q qbar -> bbbar[3S1(8)] g 517 | 0 |
409 | q qbar -> bbbar[1S0(8)] g 518 | 0 |
410 | q qbar -> bbbar[3PJ(8)] g 519 | 0 |
414 *------- End PYTHIA Multiparton Interactions Statistics -----*
416 *------- PYTHIA Error and Warning Messages Statistics ----------------------------------------------------------*
420 | 4 Error in Pythia::next: hadronLevel failed; try again |
421 | 3 Error in StringFragmentation::fragment: stuck in joining |
422 | 1 Error in StringFragmentation::fragmentToJunction: caught in junction flavour loop |
423 | 1 Warning in StringFragmentation::fragmentToJunction: bad convergence junction rest frame |
425 *------- End PYTHIA Error and Warning Messages Statistics ------------------------------------------------------*
428 2013-02-16 11:34 Higgs rapidity
437 2.20*10^-1 X XXXX55X XX X
438 2.10*10^-1 X X5XXXXXXX XX XX
439 2.00*10^-1 X XXXXXXXXX XX XXX
440 1.90*10^-1 X XXXXXXXXX5XX XXX
441 1.80*10^-1 X XXXXXXXXXXXX XXX
442 1.70*10^-1 XXXXXXXXXXXXXX XXX
443 1.60*10^-1 XXXXXXXXXXXXXXXXXX
444 1.50*10^-1 XXXXXXXXXXXXXXXXXX
445 1.40*10^-1 XXXXXXXXXXXXXXXXXX
446 1.30*10^-1 XXXXXXXXXXXXXXXXXXX
447 1.20*10^-1 XXXXXXXXXXXXXXXXXXX5
448 1.10*10^-1 X XXXXXXXXXXXXXXXXXXXX 5
449 1.00*10^-1 X5 XXXXXXXXXXXXXXXXXXXX X
450 0.90*10^-1 XX XXXXXXXXXXXXXXXXXXXX X
451 0.80*10^-1 XXXXXXXXXXXXXXXXXXXXXXX X
452 0.70*10^-1 X XXXXXXXXXXXXXXXXXXXXXXX X5
453 0.60*10^-1 5 X XXXXXXXXXXXXXXXXXXXXXXXXXX5
454 0.50*10^-1 X X XXXXXXXXXXXXXXXXXXXXXXXXXXX
455 0.40*10^-1 X 5XXXXXXXXXXXXXXXXXXXXXXXXXXXXX
456 0.30*10^-1 X XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
457 0.20*10^-1 X5XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX5
458 0.10*10^-1 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 5
461 *10^-1 0000000000000000000000000000000000000010012122222222212212221010000000000000000000000000000000000000
462 *10^-2 0000000000000000000000000000000115137419832710228411284462101606531100000000000000000000000000000000
463 *10^-3 0000000000000000000000000000000005550005000005505555550000005055505005000000000000000000000000000000
464 *10^-4 0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000
466 Low edge --------------------------------------------------
467 *10^ 1 1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000
468 *10^ 0 0999998888877777666665555544444333332222211111000000000111112222233333444445555566666777778888899999
469 *10^-1 0864208642086420864208642086420864208642086420864202468024680246802468024680246802468024680246802468
471 Entries = 1000 Mean = 7.9400e-02 Underflow = 0.0000e+00 Low edge = -1.0000e+01
472 All chan = 5.0000e+00 Rms = 1.4766e+00 Overflow = 0.0000e+00 High edge = 1.0000e+01
475 2013-02-16 11:34 charged pseudorapidity
478 2.32*10^ 1 X3 1X1 XX19891 X5
479 2.24*10^ 1 44XX7XXX8XXXXXXX9XX6
480 2.16*10^ 1 5XXXXXXXXXXXXXXXXXXXX8
481 2.08*10^ 1 8XXXXXXXXXXXXXXXXXXXXXX
482 2.00*10^ 1 XXXXXXXXXXXXXXXXXXXXXXXX9
483 1.92*10^ 1 2XXXXXXXXXXXXXXXXXXXXXXXXXX 5
484 1.84*10^ 1 2XXXXXXXXXXXXXXXXXXXXXXXXXXXXX1
485 1.76*10^ 1 2XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
486 1.68*10^ 1 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX72
487 1.60*10^ 1 17XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX5
488 1.52*10^ 1 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
489 1.44*10^ 1 4XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX97
490 1.36*10^ 1 1XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX8
491 1.28*10^ 1 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX4
492 1.20*10^ 1 9XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX5
493 1.12*10^ 1 39XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX6
494 1.04*10^ 1 1XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX4
495 0.96*10^ 1 4XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX6
496 0.88*10^ 1 4XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX5
497 0.80*10^ 1 5XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX5
498 0.72*10^ 1 1XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX4
499 0.64*10^ 1 4XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX3
500 0.56*10^ 1 3XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX9
501 0.48*10^ 1 8XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX7
502 0.40*10^ 1 28XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX3
503 0.32*10^ 1 26XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX7
504 0.24*10^ 1 457XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX852
505 0.16*10^ 1 2569XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX8653
506 0.08*10^ 1 23479XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX95432
509 *10^ 1 0000000000000000000000000111111111111122222222222222222222222211111111111110000000000000000000000000
510 *10^ 0 0000000111112223345567899011234555678901113222322332333223221098876654432109987655443222211111000000
511 *10^-1 1235689125991593860846316609884289986262992614252885101437804094865163143699236785504942074210774321
512 *10^-2 8453924966498817526950344195991607700430068656617510170619354323465434760320572141538736486672801387
514 Low edge --------------------------------------------------
515 *10^ 1 1000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000
516 *10^ 0 0999998888877777666665555544444333332222211111000000000111112222233333444445555566666777778888899999
517 *10^-1 0864208642086420864208642086420864208642086420864202468024680246802468024680246802468024680246802468
519 Entries = 220252 Mean = 2.5150e-02 Underflow = 4.2500e-01 Low edge = -1.0000e+01
520 All chan = 1.1005e+03 Rms = 3.4463e+00 Overflow = 3.7500e-01 High edge = 1.0000e+01
523 2013-02-16 11:34 charged multiplicity
532 3.45*10^ 1 X X 7 X X X
533 3.30*10^ 1 X X X X X X 3
534 3.15*10^ 1 7 X X X7X X77 X X7
535 3.00*10^ 1 X XXX XXX3XXX XX XX
536 2.85*10^ 1 X XXX 7XXXXXXX XX XX
537 2.70*10^ 1 X3XXX XXXXXXXX3 XX XX
538 2.55*10^ 1 7 XXXXX7XXXXXXXXX XX7XX 7
539 2.40*10^ 1 X 3 XXXXXXXXXXXXXXX XXXXX X X
540 2.25*10^ 1 X X XXXXXXXXXXXXXXX XXXXX X7X
541 2.10*10^ 1 XXX XXXXXXXXXXXXXXXXXXXXX3 XXX
542 1.95*10^ 1 XXX XXXXXXXXXXXXXXXXXXXXXX XXX
543 1.80*10^ 1 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
544 1.65*10^ 1 7XXXXXXXXXXXXXXXXXXXXXXXXXXXXXX7
545 1.50*10^ 1 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX3
546 1.35*10^ 1 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
547 1.20*10^ 1 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
548 1.05*10^ 1 7XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX7
549 0.90*10^ 1 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX X
550 0.75*10^ 1 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 7X7
551 0.60*10^ 1 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XXX
552 0.45*10^ 1 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XXX7 7
553 0.30*10^ 1 33XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XXXX3 X33X
554 0.15*10^ 1 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX7XXXXX777XXXX
557 *10^ 1 0000000011112221323342233424332233233212221110000000000000000000000000000000000000000000000000000000
558 *10^ 0 0000002202565138167005841094116150521084256406179742111322400000000000000000000000000000000000000000
559 *10^-1 0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000
560 *10^-2 0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000
563 *10^ 2 0000000000000111111111111222222222222233333333333344444444444445555555555556666666666666777777777777
564 *10^ 1 0012344567889012234566789001234456788901223456678900123445678890122345667890012344567889012234566789
565 *10^ 0 1864208642086420864208642086420864208642086420864208642086420864208642086420864208642086420864208642
567 Entries = 1000 Mean = 2.2082e+02 Underflow = 0.0000e+00 Low edge = -5.0000e-01
568 All chan = 1.0000e+03 Rms = 8.4616e+01 Overflow = 0.0000e+00 High edge = 7.9950e+02