================================================ | COUPSM called with option 1: | | New MadEvent default "G_mu scheme" | ================================================ EW Params Input Output ----------------------------------------------- GF (10^-5*GeV^-2) 1.1664 * 1.1664 1/alpha 128.9000 143.7223 sin^2(W) 0.2312 0.2049 M_Z (GeV) 90.1880 * 90.1880 M_W (GeV) 80.4190 * 80.4190 Electroweak coupling: --------------------- gw = 0.6532 Boson masses and widths: ------------------------ Z mass = 90.188 GeV Z width = 2.4098 GeV (calc @ LO) W mass = 80.419 GeV W width = 2.0476 GeV (calc @ LO) H mass = 160.000 GeV H width = 0.0765 GeV Fermion masses and widths: -------------------------- top mass = 174.300 GeV top width = 1.5083 GeV (calc @ LO) bottom mass = 4.700 GeV bottom width = 0.0000 GeV charm mass = 1.420 GeV charm width = 0.0000 GeV tau mass = 1.777 GeV tau width = 0.0000 GeV all other quark and lepton masses set to zero RS extra dimension parameters: ------------------------------ RS theory cut-off = 10000.00 GeV Extra dimension radius = 34.53 1/Gev 4D SO(10) coupling = 0.78 SO(10) bulk breaking = 0.10 RS extra dimension masses and widths: ------------------------------------- nu_R^1 mass = 20.000 GeV nu_R^1 width = 0.00000 GeV nu_L^1 mass = 400.000 GeV nu_L^1 width = 0.00000 GeV top_L^1 mass = 250.000 GeV top_L^1 width = 0.00000 GeV bottom_L^1 mass = 350.000 GeV bottom_L^1 width = 0.73748 GeV bottom_R^1 mass = 1000.000 GeV bottom_R^1 width = 0.75007 GeV tau_R^1 mass = 200.000 GeV tau_R^1 width = 0.00591 GeV tau_L^1 mass = 500.000 GeV tau_L^1 width = 0.86063 GeV X_s mass = 3000.000 GeV X_s width = 440.69479 GeV RS extra dimension couplings and mixings: ----------------------------------------- g(1) refers to left-handed state g(2) refers to right-handed state top_L^1 - nu_R^1 - X_s coupling XDSFN(1) = 0.00000 0.00000 XDSFN(2) = 0.00080 0.00000 bottom_L^1 - t_L^1 - W coupling XDWF(1) = -0.46191 0.00000 XDWF(2) = -0.46191 0.00000 Z - top_L^1 coupling XDZTL(1) = -0.26622 0.00000 XDZTL(2) = -0.26622 0.00000 Z - bottom_R^1 coupling XDZBR(1) = -0.05004 0.00000 XDZBR(2) = -0.05004 0.00000 Z - bottom_L^1 coupling XDZBL(1) = 0.31626 0.00000 XDZBL(2) = 0.31626 0.00000 top_R^0 - nu_R^1 - X_s coupling XDTN(1) = 0.00000 0.00000 XDTN(2) = 3.24099 0.00000 bottom_R^1 - top_R^0 - W coupling XDBT(1) = 0.00000 0.00000 XDBT(2) = 0.02311 0.00000 Z - tau_R^1 coupling XDZUR(1) = -0.15011 0.00000 XDZUR(2) = -0.15011 0.00000 Z - tau_L^1 coupling XDZUL(1) = 0.21618 0.00000 XDZUL(2) = 0.21618 0.00000 tau_R^1 - nu_R^1 - W coupling XDUNR(1) = 0.00000 0.00000 XDUNR(2) = 0.02311 0.00000 Z - nu_L^1 coupling XDZN5(1) = -0.36629 0.00000 XDZN5(2) = -0.36629 0.00000 tau_L^1 - nu_L^1 - W coupling XDUN5(1) = -0.46191 0.00000 XDUN5(2) = -0.46191 0.00000 nu_L^1 - top_R^0 - X_s coupling XDTN5(1) = 0.00000 0.00000 XDTN5(2) = 0.00080 0.00000 Quark running MSbar masses @ 1 loops: -------------------------------------- m_top(hmass)_MSbar = 164.8390 GeV m_bot(hmass)_MSbar = 2.8630 GeV m_cha(hmass)_MSbar = 0.7730 GeV Z,W LO partial widths and effective BRs: ------------------------------------- width Z->nn = 0.1605 GeV, BR(Z->nn) = 0.1998 width Z->ll = 0.0829 GeV, BR(Z->ll) = 0.0688 width Z->TT = 0.0827 GeV, BR(Z->TT) = 0.0343 width Z->uu = 0.2903 GeV, BR(Z->uu) = 0.1205 width Z->dd = 0.3679 GeV, BR(Z->dd) = 0.3053 width Z->cc = 0.2899 GeV, BR(Z->cc) = 0.1203 width Z->bb = 0.3640 GeV, BR(Z->bb) = 0.1510 width W->nl = 0.2276 GeV, BR(W->nl) = 0.2223 width W->nT = 0.2274 GeV, BR(W->nT) = 0.1111 width W->ud = 0.6827 GeV, BR(W->ud) = 0.3334 width W->cs = 0.6824 GeV, BR(W->cs) = 0.3333 HDECAY output for Higgs sector: ------------------------------ Higgs tot width = 0.07646 GeV BR (H -> bb~ ) = 0.03842 BR (H -> taus ) = 0.00431 BR (H -> muons) = 0.00001 BR (H -> ss~ ) = 0.00001 BR (H -> cc~ ) = 0.00115 BR (H -> tt~ ) = 0.00000 BR (H -> gg ) = 0.00813 BR (H -> AA ) = 0.00056 BR (H -> ZA ) = 0.00131 BR (H -> W+W- ) = 0.89756 BR (H -> ZZ ) = 0.04855 Higgs LO partial widths and BRs: -------------------------------- width H->tt~ = 0.00000000 GeV, BR_LO(H->tt~) = 0.0000 width H->bb~ = 0.00256883 GeV, BR_LO(H->bb~) = 0.0336 width H->cc~ = 0.00018814 GeV, BR_LO(H->cc~) = 0.0025 width H->ta ta~ = 0.00033135 GeV, BR_LO(H->ta ta~) = 0.0043 width H->zz = 0.00000000 GeV, BR_LO(H->zz) = 0.0000 width H->w- w+ = 0.00000000 GeV, BR_LO(H->w- w+) = 0.0000 Boson couplings: ---------------- gwwa = 0.29569 gwwz = 0.58248 gwwh = 52.53234 0.00000 gzzh = 66.07039 0.00000 ghhh = -311.91813 0.00000 gwwhh = 0.21336 0.00000 gzzhh = 0.26834 0.00000 ghhhh = -1.26683 0.00000 FFV couplings: -------------- gal(L) = 0.2956942 0.0000000 gal(R) = 0.2956942 0.0000000 gau(L) = -0.1971295 0.0000000 gau(R) = -0.1971295 0.0000000 gad(L) = 0.0985647 0.0000000 gad(R) = 0.0985647 0.0000000 gwf(L) = -0.4619054 0.0000000 gwf(R) = 0.0000000 0.0000000 gzn(L) = -0.3662926 0.0000000 gzn(R) = 0.0000000 0.0000000 gzl(L) = 0.2161833 0.0000000 gzl(R) = -0.1501093 0.0000000 gzu(L) = -0.2662197 0.0000000 gzu(R) = 0.1000729 0.0000000 gzd(L) = 0.3162562 0.0000000 gzd(R) = -0.0500364 0.0000000 FFH couplings: -------------- gHtop(L) = -0.6694828, 0.0000000 gHtop(R) = -0.6694828, 0.0000000 gHbot(L) = -0.0116277, 0.0000000 gHbot(R) = -0.0116277, 0.0000000 gHcha(L) = -0.0031393, 0.0000000 gHcha(R) = -0.0031393, 0.0000000 gHtau(L) = -0.0072172, 0.0000000 gHtau(R) = -0.0072172, 0.0000000 Strong couplings: ----------------- gg(1) = -1.2643816, 0.0000000 gg(2) = -1.2643816, 0.0000000 Collider parameters: -------------------- Running at P Pb machine @ 1960. GeV PDF set = cteq5l1 alpha_s(Mz)= 0.1270 running at 1 loops. Renormalization scale fixed @ 90.188 Factorization scales fixed @ 90.188 90.188 Enter number of events and iterations: Number of events and iterations 5000 4 Enter desired fractional accuracy: Desired fractional accuracy: 0. Enter 0 for fixed, 2 for adjustable grid: Suppress amplitude (0 no, 1 yes)? Using suppressed amplitude. Exact helicity sum (0 yes, n = number/event)? Summing over 1 helicities/event Enter Configuration Number: Running Configuration Number: 3 Not subdividing B.W. Keeping grid fixed. 10 dimensions 5000 events 10 invarients 4 iterations 1 config(s), (0.99) Using h-tuple random number sequence. Error opening grid Using Uniform Grid! Using uniform alpha 1. Grid defined OK Mapping Graph 3 to config 3 Setting BW -1 1 200. Setting BW -2 2 200. Setting grid 3 0.41649E-01 0.00000E+00 1 etot 400. 6 Setting grid 9 0.41649E-01 0.00000E+00 1 Masses: 0.000E+00 0.000E+00 0.000E+00 0.804E+02 0.000E+00 0.160E+03 3 1 2 3 4 5 6 7 8 9 10 Using seed 3 3 Particle 3 4 5 6 Et > 0.0 0.0 0.0 0.0 Eta < 2.5 2.5 2.5 2.5 d R # 3 > 0.0 0.0 0.0 0.0 d R # 4 > 0.0 0.0 0.0 0.0 d R # 5 > 0.0 0.0 0.0 0.0 s min # 1> 0.0 0.0 0.0 0.0 s min # 2> 0.0 0.0 0.0 0.0 s min # 3> 0.0 0.0 0.0 0.0 s min # 4> 0.0 0.0 0.0 0.0 s min # 5> 0.0 0.0 0.0 0.0 Iteration 1 Mean: 0.1081E-01 Fluctuation: 0.121E-02 0.416E+01 47.0% 1 0.1081E-01 +- 0.1207E-02 7.89 Writing out events 9.08029349E-06 7.89355452 Iteration 2 Mean: 0.8615E-02 Fluctuation: 0.640E-03 0.105E+01 46.9% 2 0.8615E-02 +- 0.6398E-03 5.25 Iteration 3 Mean: 0.8584E-02 Fluctuation: 0.617E-03 0.832E+00 47.0% 3 0.8584E-02 +- 0.6172E-03 5.08 Iteration 4 Mean: 0.1041E-01 Fluctuation: 0.831E-03 0.151E+01 46.9% 4 0.1041E-01 +- 0.8310E-03 5.65 ------------------------------------------------------------------------------- Accumulated results: Integral = 0.9353E-02 Std dev = 0.3781E-03 Chi**2 per DoF. = 2.1246 ------------------------------------------------------------------------------- ================================================ | COUPSM called with option 1: | | New MadEvent default "G_mu scheme" | ================================================ EW Params Input Output ----------------------------------------------- GF (10^-5*GeV^-2) 1.1664 * 1.1664 1/alpha 128.9000 143.7223 sin^2(W) 0.2312 0.2049 M_Z (GeV) 90.1880 * 90.1880 M_W (GeV) 80.4190 * 80.4190 Electroweak coupling: --------------------- gw = 0.6532 Boson masses and widths: ------------------------ Z mass = 90.188 GeV Z width = 2.4098 GeV (calc @ LO) W mass = 80.419 GeV W width = 2.0476 GeV (calc @ LO) H mass = 160.000 GeV H width = 0.0765 GeV Fermion masses and widths: -------------------------- top mass = 174.300 GeV top width = 1.5083 GeV (calc @ LO) bottom mass = 4.700 GeV bottom width = 0.0000 GeV charm mass = 1.420 GeV charm width = 0.0000 GeV tau mass = 1.777 GeV tau width = 0.0000 GeV all other quark and lepton masses set to zero RS extra dimension parameters: ------------------------------ RS theory cut-off = 10000.00 GeV Extra dimension radius = 34.53 1/Gev 4D SO(10) coupling = 0.78 SO(10) bulk breaking = 0.10 RS extra dimension masses and widths: ------------------------------------- nu_R^1 mass = 20.000 GeV nu_R^1 width = 0.00000 GeV nu_L^1 mass = 400.000 GeV nu_L^1 width = 0.00000 GeV top_L^1 mass = 250.000 GeV top_L^1 width = 0.00000 GeV bottom_L^1 mass = 350.000 GeV bottom_L^1 width = 0.73748 GeV bottom_R^1 mass = 1000.000 GeV bottom_R^1 width = 0.75007 GeV tau_R^1 mass = 200.000 GeV tau_R^1 width = 0.00591 GeV tau_L^1 mass = 500.000 GeV tau_L^1 width = 0.86063 GeV X_s mass = 3000.000 GeV X_s width = 440.69479 GeV RS extra dimension couplings and mixings: ----------------------------------------- g(1) refers to left-handed state g(2) refers to right-handed state top_L^1 - nu_R^1 - X_s coupling XDSFN(1) = 0.00000 0.00000 XDSFN(2) = 0.00080 0.00000 bottom_L^1 - t_L^1 - W coupling XDWF(1) = -0.46191 0.00000 XDWF(2) = -0.46191 0.00000 Z - top_L^1 coupling XDZTL(1) = -0.26622 0.00000 XDZTL(2) = -0.26622 0.00000 Z - bottom_R^1 coupling XDZBR(1) = -0.05004 0.00000 XDZBR(2) = -0.05004 0.00000 Z - bottom_L^1 coupling XDZBL(1) = 0.31626 0.00000 XDZBL(2) = 0.31626 0.00000 top_R^0 - nu_R^1 - X_s coupling XDTN(1) = 0.00000 0.00000 XDTN(2) = 3.24099 0.00000 bottom_R^1 - top_R^0 - W coupling XDBT(1) = 0.00000 0.00000 XDBT(2) = 0.02311 0.00000 Z - tau_R^1 coupling XDZUR(1) = -0.15011 0.00000 XDZUR(2) = -0.15011 0.00000 Z - tau_L^1 coupling XDZUL(1) = 0.21618 0.00000 XDZUL(2) = 0.21618 0.00000 tau_R^1 - nu_R^1 - W coupling XDUNR(1) = 0.00000 0.00000 XDUNR(2) = 0.02311 0.00000 Z - nu_L^1 coupling XDZN5(1) = -0.36629 0.00000 XDZN5(2) = -0.36629 0.00000 tau_L^1 - nu_L^1 - W coupling XDUN5(1) = -0.46191 0.00000 XDUN5(2) = -0.46191 0.00000 nu_L^1 - top_R^0 - X_s coupling XDTN5(1) = 0.00000 0.00000 XDTN5(2) = 0.00080 0.00000 Quark running MSbar masses @ 1 loops: -------------------------------------- m_top(hmass)_MSbar = 164.8390 GeV m_bot(hmass)_MSbar = 2.8630 GeV m_cha(hmass)_MSbar = 0.7730 GeV Z,W LO partial widths and effective BRs: ------------------------------------- width Z->nn = 0.1605 GeV, BR(Z->nn) = 0.1998 width Z->ll = 0.0829 GeV, BR(Z->ll) = 0.0688 width Z->TT = 0.0827 GeV, BR(Z->TT) = 0.0343 width Z->uu = 0.2903 GeV, BR(Z->uu) = 0.1205 width Z->dd = 0.3679 GeV, BR(Z->dd) = 0.3053 width Z->cc = 0.2899 GeV, BR(Z->cc) = 0.1203 width Z->bb = 0.3640 GeV, BR(Z->bb) = 0.1510 width W->nl = 0.2276 GeV, BR(W->nl) = 0.2223 width W->nT = 0.2274 GeV, BR(W->nT) = 0.1111 width W->ud = 0.6827 GeV, BR(W->ud) = 0.3334 width W->cs = 0.6824 GeV, BR(W->cs) = 0.3333 HDECAY output for Higgs sector: ------------------------------ Higgs tot width = 0.07646 GeV BR (H -> bb~ ) = 0.03842 BR (H -> taus ) = 0.00431 BR (H -> muons) = 0.00001 BR (H -> ss~ ) = 0.00001 BR (H -> cc~ ) = 0.00115 BR (H -> tt~ ) = 0.00000 BR (H -> gg ) = 0.00813 BR (H -> AA ) = 0.00056 BR (H -> ZA ) = 0.00131 BR (H -> W+W- ) = 0.89756 BR (H -> ZZ ) = 0.04855 Higgs LO partial widths and BRs: -------------------------------- width H->tt~ = 0.00000000 GeV, BR_LO(H->tt~) = 0.0000 width H->bb~ = 0.00256883 GeV, BR_LO(H->bb~) = 0.0336 width H->cc~ = 0.00018814 GeV, BR_LO(H->cc~) = 0.0025 width H->ta ta~ = 0.00033135 GeV, BR_LO(H->ta ta~) = 0.0043 width H->zz = 0.00000000 GeV, BR_LO(H->zz) = 0.0000 width H->w- w+ = 0.00000000 GeV, BR_LO(H->w- w+) = 0.0000 Boson couplings: ---------------- gwwa = 0.29569 gwwz = 0.58248 gwwh = 52.53234 0.00000 gzzh = 66.07039 0.00000 ghhh = -311.91813 0.00000 gwwhh = 0.21336 0.00000 gzzhh = 0.26834 0.00000 ghhhh = -1.26683 0.00000 FFV couplings: -------------- gal(L) = 0.2956942 0.0000000 gal(R) = 0.2956942 0.0000000 gau(L) = -0.1971295 0.0000000 gau(R) = -0.1971295 0.0000000 gad(L) = 0.0985647 0.0000000 gad(R) = 0.0985647 0.0000000 gwf(L) = -0.4619054 0.0000000 gwf(R) = 0.0000000 0.0000000 gzn(L) = -0.3662926 0.0000000 gzn(R) = 0.0000000 0.0000000 gzl(L) = 0.2161833 0.0000000 gzl(R) = -0.1501093 0.0000000 gzu(L) = -0.2662197 0.0000000 gzu(R) = 0.1000729 0.0000000 gzd(L) = 0.3162562 0.0000000 gzd(R) = -0.0500364 0.0000000 FFH couplings: -------------- gHtop(L) = -0.6694828, 0.0000000 gHtop(R) = -0.6694828, 0.0000000 gHbot(L) = -0.0116277, 0.0000000 gHbot(R) = -0.0116277, 0.0000000 gHcha(L) = -0.0031393, 0.0000000 gHcha(R) = -0.0031393, 0.0000000 gHtau(L) = -0.0072172, 0.0000000 gHtau(R) = -0.0072172, 0.0000000 Strong couplings: ----------------- gg(1) = -1.2643816, 0.0000000 gg(2) = -1.2643816, 0.0000000 Collider parameters: -------------------- Running at P Pb machine @ 1960. GeV PDF set = cteq5l1 alpha_s(Mz)= 0.1270 running at 1 loops. Renormalization scale fixed @ 90.188 Factorization scales fixed @ 90.188 90.188 Enter number of events and iterations: Number of events and iterations 25000 8 Enter desired fractional accuracy: Desired fractional accuracy: 0. Enter 0 for fixed, 2 for adjustable grid: Suppress amplitude (0 no, 1 yes)? Using suppressed amplitude. Exact helicity sum (0 yes, n = number/event)? Summing over 1 helicities/event Enter Configuration Number: Running Configuration Number: 3 Not subdividing B.W. Using non-zero grid deformation. 10 dimensions 25000 events 10 invarients 8 iterations 1 config(s), (0.99) Using h-tuple random number sequence. Error opening grid Using Uniform Grid! Using uniform alpha 1. Grid defined OK Mapping Graph 3 to config 3 Setting BW -1 1 200. Setting BW -2 2 200. Setting grid 3 0.41649E-01 0.00000E+00 1 etot 400. 6 Setting grid 9 0.41649E-01 0.00000E+00 1 Masses: 0.000E+00 0.000E+00 0.000E+00 0.804E+02 0.000E+00 0.160E+03 3 1 2 3 4 5 6 7 8 9 10 Using seed 3 12 Particle 3 4 5 6 Et > 0.0 0.0 0.0 0.0 Eta < 2.5 2.5 2.5 2.5 d R # 3 > 0.0 0.0 0.0 0.0 d R # 4 > 0.0 0.0 0.0 0.0 d R # 5 > 0.0 0.0 0.0 0.0 s min # 1> 0.0 0.0 0.0 0.0 s min # 2> 0.0 0.0 0.0 0.0 s min # 3> 0.0 0.0 0.0 0.0 s min # 4> 0.0 0.0 0.0 0.0 s min # 5> 0.0 0.0 0.0 0.0 Iteration 1 Mean: 0.9687E-02 Fluctuation: 0.382E-03 0.301E+01 47.0% 1 0.9687E-02 +- 0.3821E-03 6.24 Writing out events 6.42328825E-07 6.23678788 Iteration 2 Mean: 0.1012E-01 Fluctuation: 0.172E-03 0.470E+00 47.4% 2 0.1012E-01 +- 0.1723E-03 2.69 Iteration 3 Mean: 0.1024E-01 Fluctuation: 0.339E-03 0.697E+01 47.6% 3 0.1024E-01 +- 0.3393E-03 5.24 Iteration 4 Mean: 0.9854E-02 Fluctuation: 0.129E-03 0.108E+01 47.1% 4 0.9854E-02 +- 0.1294E-03 2.08 Iteration 5 Mean: 0.9777E-02 Fluctuation: 0.107E-03 0.164E+00 47.6% 5 0.9777E-02 +- 0.1069E-03 1.73 We got it 0.008 0.000 0.007 1.089 Iteration 6 Mean: 0.9654E-02 Fluctuation: 0.102E-03 0.160E+00 47.7% 6 0.9654E-02 +- 0.1024E-03 1.68 We got it 0.007 0.000 0.006 1.533 Iteration 7 Mean: 0.9686E-02 Fluctuation: 0.142E-03 0.250E+01 47.8% 7 0.9686E-02 +- 0.1417E-03 2.31 We got it 0.007 0.000 0.006 1.387 Iteration 8 Mean: 0.9923E-02 Fluctuation: 0.103E-03 0.288E+00 48.0% 8 0.9923E-02 +- 0.1034E-03 1.65 We got it 0.006 0.000 0.005 1.366 ------------------------------------------------------------------------------- Accumulated results: Integral = 0.9820E-02 Std dev = 0.4796E-04 Chi**2 per DoF. = 1.3662 ------------------------------------------------------------------------------- ================================================ | COUPSM called with option 1: | | New MadEvent default "G_mu scheme" | ================================================ EW Params Input Output ----------------------------------------------- GF (10^-5*GeV^-2) 1.1664 * 1.1664 1/alpha 128.9000 143.7223 sin^2(W) 0.2312 0.2049 M_Z (GeV) 90.1880 * 90.1880 M_W (GeV) 80.4190 * 80.4190 Electroweak coupling: --------------------- gw = 0.6532 Boson masses and widths: ------------------------ Z mass = 90.188 GeV Z width = 2.4098 GeV (calc @ LO) W mass = 80.419 GeV W width = 2.0476 GeV (calc @ LO) H mass = 160.000 GeV H width = 0.0765 GeV Fermion masses and widths: -------------------------- top mass = 174.300 GeV top width = 1.5083 GeV (calc @ LO) bottom mass = 4.700 GeV bottom width = 0.0000 GeV charm mass = 1.420 GeV charm width = 0.0000 GeV tau mass = 1.777 GeV tau width = 0.0000 GeV all other quark and lepton masses set to zero RS extra dimension parameters: ------------------------------ RS theory cut-off = 10000.00 GeV Extra dimension radius = 34.53 1/Gev 4D SO(10) coupling = 0.78 SO(10) bulk breaking = 0.10 RS extra dimension masses and widths: ------------------------------------- nu_R^1 mass = 20.000 GeV nu_R^1 width = 0.00000 GeV nu_L^1 mass = 400.000 GeV nu_L^1 width = 0.00000 GeV top_L^1 mass = 250.000 GeV top_L^1 width = 0.00000 GeV bottom_L^1 mass = 350.000 GeV bottom_L^1 width = 0.73748 GeV bottom_R^1 mass = 1000.000 GeV bottom_R^1 width = 0.75007 GeV tau_R^1 mass = 200.000 GeV tau_R^1 width = 0.00591 GeV tau_L^1 mass = 500.000 GeV tau_L^1 width = 0.86063 GeV X_s mass = 3000.000 GeV X_s width = 440.69479 GeV RS extra dimension couplings and mixings: ----------------------------------------- g(1) refers to left-handed state g(2) refers to right-handed state top_L^1 - nu_R^1 - X_s coupling XDSFN(1) = 0.00000 0.00000 XDSFN(2) = 0.00080 0.00000 bottom_L^1 - t_L^1 - W coupling XDWF(1) = -0.46191 0.00000 XDWF(2) = -0.46191 0.00000 Z - top_L^1 coupling XDZTL(1) = -0.26622 0.00000 XDZTL(2) = -0.26622 0.00000 Z - bottom_R^1 coupling XDZBR(1) = -0.05004 0.00000 XDZBR(2) = -0.05004 0.00000 Z - bottom_L^1 coupling XDZBL(1) = 0.31626 0.00000 XDZBL(2) = 0.31626 0.00000 top_R^0 - nu_R^1 - X_s coupling XDTN(1) = 0.00000 0.00000 XDTN(2) = 3.24099 0.00000 bottom_R^1 - top_R^0 - W coupling XDBT(1) = 0.00000 0.00000 XDBT(2) = 0.02311 0.00000 Z - tau_R^1 coupling XDZUR(1) = -0.15011 0.00000 XDZUR(2) = -0.15011 0.00000 Z - tau_L^1 coupling XDZUL(1) = 0.21618 0.00000 XDZUL(2) = 0.21618 0.00000 tau_R^1 - nu_R^1 - W coupling XDUNR(1) = 0.00000 0.00000 XDUNR(2) = 0.02311 0.00000 Z - nu_L^1 coupling XDZN5(1) = -0.36629 0.00000 XDZN5(2) = -0.36629 0.00000 tau_L^1 - nu_L^1 - W coupling XDUN5(1) = -0.46191 0.00000 XDUN5(2) = -0.46191 0.00000 nu_L^1 - top_R^0 - X_s coupling XDTN5(1) = 0.00000 0.00000 XDTN5(2) = 0.00080 0.00000 Quark running MSbar masses @ 1 loops: -------------------------------------- m_top(hmass)_MSbar = 164.8390 GeV m_bot(hmass)_MSbar = 2.8630 GeV m_cha(hmass)_MSbar = 0.7730 GeV Z,W LO partial widths and effective BRs: ------------------------------------- width Z->nn = 0.1605 GeV, BR(Z->nn) = 0.1998 width Z->ll = 0.0829 GeV, BR(Z->ll) = 0.0688 width Z->TT = 0.0827 GeV, BR(Z->TT) = 0.0343 width Z->uu = 0.2903 GeV, BR(Z->uu) = 0.1205 width Z->dd = 0.3679 GeV, BR(Z->dd) = 0.3053 width Z->cc = 0.2899 GeV, BR(Z->cc) = 0.1203 width Z->bb = 0.3640 GeV, BR(Z->bb) = 0.1510 width W->nl = 0.2276 GeV, BR(W->nl) = 0.2223 width W->nT = 0.2274 GeV, BR(W->nT) = 0.1111 width W->ud = 0.6827 GeV, BR(W->ud) = 0.3334 width W->cs = 0.6824 GeV, BR(W->cs) = 0.3333 HDECAY output for Higgs sector: ------------------------------ Higgs tot width = 0.07646 GeV BR (H -> bb~ ) = 0.03842 BR (H -> taus ) = 0.00431 BR (H -> muons) = 0.00001 BR (H -> ss~ ) = 0.00001 BR (H -> cc~ ) = 0.00115 BR (H -> tt~ ) = 0.00000 BR (H -> gg ) = 0.00813 BR (H -> AA ) = 0.00056 BR (H -> ZA ) = 0.00131 BR (H -> W+W- ) = 0.89756 BR (H -> ZZ ) = 0.04855 Higgs LO partial widths and BRs: -------------------------------- width H->tt~ = 0.00000000 GeV, BR_LO(H->tt~) = 0.0000 width H->bb~ = 0.00256883 GeV, BR_LO(H->bb~) = 0.0336 width H->cc~ = 0.00018814 GeV, BR_LO(H->cc~) = 0.0025 width H->ta ta~ = 0.00033135 GeV, BR_LO(H->ta ta~) = 0.0043 width H->zz = 0.00000000 GeV, BR_LO(H->zz) = 0.0000 width H->w- w+ = 0.00000000 GeV, BR_LO(H->w- w+) = 0.0000 Boson couplings: ---------------- gwwa = 0.29569 gwwz = 0.58248 gwwh = 52.53234 0.00000 gzzh = 66.07039 0.00000 ghhh = -311.91813 0.00000 gwwhh = 0.21336 0.00000 gzzhh = 0.26834 0.00000 ghhhh = -1.26683 0.00000 FFV couplings: -------------- gal(L) = 0.2956942 0.0000000 gal(R) = 0.2956942 0.0000000 gau(L) = -0.1971295 0.0000000 gau(R) = -0.1971295 0.0000000 gad(L) = 0.0985647 0.0000000 gad(R) = 0.0985647 0.0000000 gwf(L) = -0.4619054 0.0000000 gwf(R) = 0.0000000 0.0000000 gzn(L) = -0.3662926 0.0000000 gzn(R) = 0.0000000 0.0000000 gzl(L) = 0.2161833 0.0000000 gzl(R) = -0.1501093 0.0000000 gzu(L) = -0.2662197 0.0000000 gzu(R) = 0.1000729 0.0000000 gzd(L) = 0.3162562 0.0000000 gzd(R) = -0.0500364 0.0000000 FFH couplings: -------------- gHtop(L) = -0.6694828, 0.0000000 gHtop(R) = -0.6694828, 0.0000000 gHbot(L) = -0.0116277, 0.0000000 gHbot(R) = -0.0116277, 0.0000000 gHcha(L) = -0.0031393, 0.0000000 gHcha(R) = -0.0031393, 0.0000000 gHtau(L) = -0.0072172, 0.0000000 gHtau(R) = -0.0072172, 0.0000000 Strong couplings: ----------------- gg(1) = -1.2643816, 0.0000000 gg(2) = -1.2643816, 0.0000000 Collider parameters: -------------------- Running at P Pb machine @ 1960. GeV PDF set = cteq5l1 alpha_s(Mz)= 0.1270 running at 1 loops. Renormalization scale fixed @ 90.188 Factorization scales fixed @ 90.188 90.188 Enter number of events and iterations: Number of events and iterations 25000 8 Enter desired fractional accuracy: Desired fractional accuracy: -128. Enter 0 for fixed, 2 for adjustable grid: Suppress amplitude (0 no, 1 yes)? Using suppressed amplitude. Exact helicity sum (0 yes, n = number/event)? Summing over 1 helicities/event Enter Configuration Number: Running Configuration Number: 3 Not subdividing B.W. Keeping grid fixed. 10 dimensions 25000 events 10 invarients 8 iterations 1 config(s), (0.99) Using h-tuple random number sequence. Grid read from file Grid defined OK Mapping Graph 3 to config 3 Setting BW -1 1 200. Setting BW -2 2 200. No modification is setgrid, grid read from file etot 400. 6 No modification is setgrid, grid read from file Masses: 0.000E+00 0.000E+00 0.000E+00 0.804E+02 0.000E+00 0.160E+03 3 1 2 3 4 5 6 7 8 9 10 Using seed 3 12 Particle 3 4 5 6 Et > 0.0 0.0 0.0 0.0 Eta < 2.5 2.5 2.5 2.5 d R # 3 > 0.0 0.0 0.0 0.0 d R # 4 > 0.0 0.0 0.0 0.0 d R # 5 > 0.0 0.0 0.0 0.0 s min # 1> 0.0 0.0 0.0 0.0 s min # 2> 0.0 0.0 0.0 0.0 s min # 3> 0.0 0.0 0.0 0.0 s min # 4> 0.0 0.0 0.0 0.0 s min # 5> 0.0 0.0 0.0 0.0 Iteration 1 Mean: 0.9939E-02 Fluctuation: 0.105E-03 0.289E+00 48.0% 1 0.9939E-02 +- 0.1051E-03 1.67 Writing out events 1.72924721E-07 1.67120132 Iteration 2 Mean: 0.9711E-02 Fluctuation: 0.103E-03 0.296E+00 47.9% 2 0.9711E-02 +- 0.1030E-03 1.68 ------------------------------------------------------------------------------- Accumulated results: Integral = 0.9826E-02 Std dev = 0.7356E-04 Chi**2 per DoF. = 2.3966 -------------------------------------------------------------------------------