Commit 1bc3f110 authored by Javier's avatar Javier

analysis + results updated

parent 2f27cbb4
#TODO include rw, different plateaux depending on obs, print chi2, scaling+chiral plots #TODO include rw, different plateaux depending on obs, print chi2, compute t0, compute mpi
using juobs, ADerrors, DelimitedFiles, PyPlot, LaTeXStrings using juobs, ADerrors, DelimitedFiles, PyPlot, LaTeXStrings
const path = "/home/javier/Lattice/charm/production_2" const path = "/home/javier/Lattice/charm/production_2"
const path_plat = "/home/javier/Lattice/juobs/analysis/plat.txt" const path_plat = "/home/javier/Lattice/juobs/analysis/plat.txt"
...@@ -11,6 +11,7 @@ const beta = [3.46 , 3.55, 3.55, 3.70, 3.70] ...@@ -11,6 +11,7 @@ const beta = [3.46 , 3.55, 3.55, 3.70, 3.70]
const R = ["H400r001", ["N200r000", "N200r001"], ["N203r000", "N203r001"], "N300r002", "J303r003"] const R = ["H400r001", ["N200r000", "N200r001"], ["N203r000", "N203r001"], "N300r002", "J303r003"]
include("/home/javier/Lattice/juobs/constants/juobs_const.jl") include("/home/javier/Lattice/juobs/constants/juobs_const.jl")
include("/home/javier/Lattice/juobs/analysis/functions.jl") include("/home/javier/Lattice/juobs/analysis/functions.jl")
const phi2 = 8 .* t0.(beta) .* [0.16345, 0.09222, 0.11224, 0.10630, 0.06514].^2 #8t0 m_pi^2
m_lh = Vector{Vector{uwreal}}(undef, length(ensembles)) m_lh = Vector{Vector{uwreal}}(undef, length(ensembles))
...@@ -211,3 +212,52 @@ for iens=1:length(ensembles) ...@@ -211,3 +212,52 @@ for iens=1:length(ensembles)
println("(", ensembles[iens], ")", L"$f_D \sqrt{8t_0}= $", f_D[iens]) println("(", ensembles[iens], ")", L"$f_D \sqrt{8t_0}= $", f_D[iens])
println("(", ensembles[iens], ")", L"$f_Ds \sqrt{8t_0}= $", f_Ds[iens]) println("(", ensembles[iens], ")", L"$f_Ds \sqrt{8t_0}= $", f_Ds[iens])
end end
###########################
###### FITS ###############
###########################
x = [1 ./(8 .* t0.(beta)) phi2] #x1 = a^2 / (8t0), x2 = 8t0 mpi^2
uwerr.(x)
phi2_ph = (t0_ph[1] * 139.57039 / hc)^2
uwerr(phi2_ph)
#f(a2/8t0,phi2) = p[1]+ p[2](a2/8t0) + (p[3] + p[4](a2/8t0)) * phi2
@. model(x, p) = (p[1] + p[2] * x[:, 1]) + (p[3] + p[4] * x[:, 1]) * x[:, 2] #linear fits
obs = [muc, m_D, m_Ds, m_D_star, m_Ds_star, f_D, f_Ds] #sqrt(8t0) obs
ttl_obs = ["muc", "m_D", "m_Ds", "m_D_star", "m_Ds_star", "f_D", "f_Ds"]
ylbl = [L"$Z^{tm}_M \mu_c \sqrt{8t_0}$", L"$M_D \sqrt{8t_0}$", L"$M_{D_s} \sqrt{8t_0}$",
L"$M_{D^*} \sqrt{8t_0}$", L"$M_{D^*_s} \sqrt{8t_0}$", L"$f_D \sqrt{8t_0}$", L"$f_{D_s} \sqrt{8t_0}$"]
xlbl = L"$\phi_2$"
obs_t0 = Vector{uwreal}(undef, length(obs)) #sqrt(8t0)obs @ CL & phi2_phys
for k = 1:length(obs)
println("OBS ",ttl_obs[k])
par = fit_routine(model, value.(x), obs[k], 4)
obs_t0[k] = par[1] + par[3] * phi2_ph
uwerr(obs_t0[k])
figure()
for b in unique(beta) #select point with same beta
nn = findall(x-> x == b, beta)
lgnd = string(L"$\beta = $", b)
errorbar(value.(x[nn,2]), value.(obs[k][nn]), err.(obs[k][nn]), err.(x[nn,2]), fmt="x", label=lgnd)
end
lgnd=L"$\mathrm{CL}$"
errorbar(value(phi2_ph), value(obs_t0[k]), err(obs_t0[k]), err(phi2_ph), fmt="x", zorder=2, label=lgnd)
axvline(value(phi2_ph), ls="--", color="black", zorder=1, lw=0.6, label="")
xlabel(xlbl)
ylabel(ylbl[k])
legend()
display(gcf())
t = string("fit_", ttl_obs[k], ".pdf")
savefig(joinpath(path_plot, t))
close()
end
obs_ph = Vector{uwreal}(undef, length(obs))
for k = 1:length(obs)
println(ylbl[k], " = ", obs_t0[k])
#phys
obs_ph[k] = obs_t0[k] * hc / t0_ph[1]
uwerr(obs_ph[k])
println(ttl_obs[k], "(MeV) = ", obs_ph[k])
end
This diff is collapsed.
...@@ -34,3 +34,17 @@ ...@@ -34,3 +34,17 @@
(J303)$f_D \sqrt{8t_0}= $0.4649182529771295 +/- 0.004855221613601069 (J303)$f_D \sqrt{8t_0}= $0.4649182529771295 +/- 0.004855221613601069
(J303)$f_Ds \sqrt{8t_0}= $0.5220832840476 +/- 0.0031391370517194982 (J303)$f_Ds \sqrt{8t_0}= $0.5220832840476 +/- 0.0031391370517194982
$Z^{tm}_M \mu_c \sqrt{8t_0}$ = 3.289196404345117 +/- 0.16908049991604063
muc(MeV) = 1571.5428436124926 +/- 74.65754166879076
$M_D \sqrt{8t_0}$ = 4.034261174024082 +/- 0.12045227374006602
m_D(MeV) = 1927.5268174700511 +/- 51.13372706582599
$M_Ds \sqrt{8t_0}$ = 4.270003547803183 +/- 0.12354622671856343
m_Ds(MeV) = 2040.1620009329038 +/- 52.898332267818304
$M_D* \sqrt{8t_0}$ = 4.103105481644236 +/- 0.10100061920706542
m_D_star(MeV) = 1960.4198909335223 +/- 42.35821470980299
$M_Ds* \sqrt{8t_0}$ = 4.498614355722275 +/- 0.09456340196942646
m_Ds_star(MeV) = 2149.3897985442322 +/- 37.956898903502925
$f_D \sqrt{8t_0}$ = 0.4363276333625155 +/- 0.017871060655147757
f_D(MeV) = 208.47267398669123 +/- 8.883408580389085
$f_Ds \sqrt{8t_0}$ = 0.5263085789505523 +/- 0.011256710293275131
f_Ds(MeV) = 251.46460688360165 +/- 6.054227498288841
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