#### ${{\mathit \Xi}_{{c}}^{0}}$ MEAN LIFE

VALUE ($10^{-15}$ s) EVTS DOCUMENT ID TECN  COMMENT
 $\bf{ 151.9 \pm2.4}$ OUR AVERAGE
$153.4$ $\pm2.4$ $\pm0.7$ 22k 1
 2019 AG
LHCB ${{\mathit \Xi}_{{c}}^{0}}$ $\rightarrow$ ${{\mathit p}}{{\mathit K}^{-}}{{\mathit K}^{-}}{{\mathit \pi}^{+}}$
$118$ ${}^{+14}_{-12}$ $\pm5$ 110
 2002 H
FOCS ${{\mathit \gamma}}$ nucleus, $\approx{}$180 GeV
$101$ ${}^{+25}_{-17}$ $\pm5$ 42
 1993 C
E687 ${{\mathit \gamma}}{}^{}\mathrm {Be}$, ${{\overline{\mathit E}}}_{\gamma }$= 220 GeV
$82$ ${}^{+59}_{-30}$ 4
 1990
ACCM ${{\mathit \pi}^{-}}$ (${{\mathit K}^{-}}$ ) ${}^{}\mathrm {Cu}$ 230 GeV
 1 AAIJ 2019AG reports [${{\mathit \Xi}_{{c}}^{0}}$ MEAN LIFE] $/$ [${{\mathit D}^{\pm}}$ MEAN LIFE] = $0.1485$ $\pm0.0017$ $\pm0.0016$ which we multiply by our best value ${{\mathit D}^{\pm}}$ MEAN LIFE = ($1.033$ $\pm0.005$) $\times 10^{-12}$ s. Our first error is their experiment's error and our second error is the systematic error from using our best value.
References:
 AAIJ 2019AG
PR D100 032001 Precision measurement of the $\Lambda_c^+$, $\Xi_c^+$ and $\Xi_c^0$ baryon lifetimes
PL B541 211 A New Measurement of the ${{\mathit \Xi}_{{c}}^{0}}$ Lifetime
PRL 70 2058 Measurement of the Lifetime of the ${{\mathit \Xi}_{{c}}^{0}}$
PL B236 495 First Measurement of the Lifetime of the Charmed Strange Baryon ${{\mathit \Xi}_{{c}}^{0}}$