mass=(.01,.05), Kappa=0.119, time-averaged (0,16,32,48) from 593 configs
Analysis based on 593 configurations from l2064f21b676m010m050/Ds_k0.119_csw1.72-t0.
Jim claims this is 4 averaged time sources.
Smearings used: local,1S,2S for onia, local only for heavy-light.
Priors
pi: E0=1.65+-0.5, (dE)=0.4+-0.2
ro: E0=1.71+-0.5, (dE)=0.4+-0.2
b1: E0=2.0+-0.6, (dE)=0.4+-0.2
a0: E0=2.0+-0.6, (dE)=0.4+-0.2
a1: E0=2.0+-0.6, (dE)=0.4+-0.2
hlpi: E0=1.15+-0.3, (dE)=0.4+-0.2
hlro: E0=1.21+-0.36, (dE)=0.4+-0.2
(dE) priors are log-based, but the quoted number is the E-equivalent.
Actual fitter values for the energy spacing are exp(-9.16291e-01 +- 4.81212e-01)
Quarkonia
aM1
aM1(pi(1S)): 1.64231 + 0.00031 - 0.00021
aM1(pi(2S)): 2.03968 + 0.01507 - 0.01570
aM1(ro(1S)): 1.70569 + 0.00068 - 0.00029
aM1(ro(2S)): 2.08789 + 0.01326 - 0.02823
aM1(b1(1P)): 1.97634 + 0.00503 - 0.01314 Distribution of bootstraps
aM1(a0(1P)): 1.92445 + 0.00519 - 0.00696
aM1(a1(1P)): 1.96633 + 0.00501 - 0.00808
aM2
aM2(1Sbar): 2.25359 + 0.00632 - 0.01734
Splittings
aM1(1P-1Sbar): 0.28650 + 0.00487 - 0.01334
aInverse(1P-1Sbar): 1.60056 + 0.07817 - 0.02673 GeV
aM1(2Sbar-1Sbar): 0.38599 + 0.01146 - 0.02528
aInverse(2Sbar-1Sbar): 1.54249 + 0.10810 - 0.04447 GeV
M(ro(1S)-pi(1S)) (hyperfine splitting): 0.10145 + 0.00506 - 0.00160 GeV
aM(ro(1S)-pi(1S)) (hyperfine splitting): 0.06338 + 0.00048 - 0.00029
M(ro(2S)-pi(2S)) (2S hyperfine splitting): 0.07716 + 0.01509 - 0.02993 GeV
aM(ro(2S)-pi(2S)) (2S hyperfine splitting): 0.06338 + 0.00048 - 0.00029
R = ((2Sbar-1Sbar)/(1P-1Sbar))_lat / ((2Sbar-1Sbar)/(1P-1Sbar))_exp = a^{-1}_{1P-1Sbar} / a^{-1}_{2Sbar-1Sbar}
R keeping correlations: 1.03765 + 0.06549 - 0.07321
R_hyp = ((psi' - eta_c')/(psi-eta_c)_lat / ((psi'-eta_c')/(psi-eta_c))_exp
R_hyp keeping correlations: 0.96907 + 0.18271 - 0.39220
Heavy-light
M1
Ds(E0-non): 1.15835 + 0.00105 - 0.00098
Ds(E1-osc): 1.35796 + 0.02556 - 0.02160
Ds(E2-non): 1.48769 + 0.05079 - 0.05710
Ds(E3-osc): 1.96704 + 0.02589 - 0.01834
aM1(Ds(E1)-Ds(E0)): 0.19961 + 0.02373 - 0.02230
M1(Ds(E1)-Ds(E0)): 0.31948 + 0.05478 - 0.02974 GeV
Ds*(E0-non): 1.23538 + 0.00267 - 0.00316
Ds*(E1-osc): 1.42987 + 0.01398 - 0.01250
Ds*(E2-non): 1.52394 + 0.05414 - 0.04208
Ds*(E3-osc): 2.16738 + 0.00833 - 0.00806
aM1(Ds*(E1)-Ds*(E0)): 0.19449 + 0.01279 - 0.01224
M1(Ds*(E1)-Ds*(E0)): 0.31130 + 0.03028 - 0.01646 GeV
aM1(Dsbar) = aM1(Ds+3Ds*)/4: 1.21612 + 0.00213 - 0.00232
M2
aM2(Ds): 1.22043 + 0.00764 - 0.01121
aM2(Ds*): 1.37599 + 0.01590 - 0.03096
aM2(Dsbar) = aM2(Ds+3Ds*)/4: 1.31319 + 0.01582 - 0.02612
Combined quantities
M2(1Sbar)/M1(1P-1Sbar): 7.86589 + 0.40487 - 0.16017
M2(Ds)/M1(1P-1Sbar): 4.25976 + 0.20020 - 0.07843
M2(Dsbar)/M1(1P-1Sbar): 4.58353 + 0.25864 - 0.11440
2 M2(Ds)/M2(1Sbar): 1.08310 + 0.01101 - 0.00862
[2 * M1(Dsbar) - M1(1Sbar)]/ M1(1P-1Sbar)
---------------------------------------------: 1.09489 + 0.05089 - 0.01868
experimental value of the same quantity
M1(Ds*)-M1(Ds) = M1(hyperfine splitting): 0.12328 + 0.00854 - 0.00467 GeV
aM1(Ds*)-aM1(Ds) = aM1(hyperfine split): 0.07702 + 0.00244 - 0.00290
Files
a0: Dataset18/Datasety100_18p_p000_5_0,2_7_0,0.a0.8.boots
a1: Dataset18/Datasety100_18p_p000_5_0,2_7_0,0.a1.8.boots
b1: Dataset18/Datasety100_18p_p000_5_0,2_7_0,0.b1.8.boots
pi: Dataset18/Datasety100_18p_p000_5_0,2_7_0,0.pi.8.boots
ro: Dataset18/Datasety100_18p_p000_5_0,2_7_0,0.ro.8.boots
kin1S: Dataset18/Datasety100_18p_5_0,0_7_0,0.avg.8.boots
Ds: Dataset18/Datasety100_18p_p000_6_0,0_7_0,0.hlpi.8.boots
kinDs: Dataset18/Datasety100_18p_6_0,0_7_0,0.hlpi.8.boots
Ds2: Dataset18/Datasety100_18p_p000_6_0,0_7_0,0.hlro.8.boots
kinDs2: Dataset18/Datasety100_18p_6_0,0_7_0,0.hlro.8.boots
kinDsavg: Dataset18/Datasety100_18p_6_0,0_7_0,0.hlavg.8.boots