Erm, just some statistical queries.. what about chebychev's inequality:
"No more than 1/k^{2} of the distribution's values can be more than k standard deviations away from the mean"
In this case it is 1/(3.7*3.7) which is 7%, and 24*7% is 1.75, so no more than 1.75 of the observables should be this far away. One deviation this large is perfectly expected from Chebychev's inequality.
Thanks,
Rob
------------------------------------------
Robert Lambert
FOM-VU-NIKHEF-Bfys LHCb
Email: rob.lambert@cern.ch
------------------------------------------
Nikhef N251
Tel: +31 20 592 2131
Fax: +31 20 592 5155
------------------------------------------
CERN, 13-1-018
Tel: +41 22 767 4024
Fax: +41 22 766 8109
------------------------------------------
From: bfys-physics-bounces@nikhef.nl [bfys-physics-bounces@nikhef.nl] on behalf of Marcel Merk [marcel.merk@nikhef.nl]
Sent: 01 July 2013 18:01
To: bfys-physics@nikhef.nl
Subject: [Bfys-physics] B->K*mumu paper
Dear bfys-physics friend,
This is to let you know that I collect comments to the paper below.
To stimulate you to read it: we claim that the probability that the measurement is consistent with the Standard Model is only 0.5%. A local discrepancy of 3.7 sigma is observed.
LHCb PAPER-2013-037:
"Measurement of form factor independent observables
in the decay $B^0\to K^{*0}\mu^+\mu^-$"
Link : https://cds.cern.ch/record/1557918
Deadline : 09-Jul-2013
best regards,
- Marcel