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A Bayesian Analysis of Parton Distribution Uncertainties. Clare Quarman. Atlas UK Physics meeting – UCL 15 th Dec 2003. Parton Distribution Functions. (PDFs) Tell us about the quark and gluon content of protons how a proton’s momentum is distributed between its constituents
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ABayesian Analysis ofParton DistributionUncertainties Clare Quarman Atlas UK Physics meeting – UCL 15th Dec 2003
Parton Distribution Functions (PDFs) Tell us about • the quark and gluoncontent of protons • how a proton’s momentum is distributed between its constituents Especially important now… • hadron colliders – Tevatron and LHC • events caused by parton interactions • cross-sections depend on PDFs
How PDFs are calculated • Initial parameterisation (low energy, Q02) e.g. • DGLAP evolution (to energy of data) where each • Comparison with data • Adjust parameters to give best fit
DGLAP evolution my LO evolution code using MRST initial distributions MRST 2001 LO
DGLAP evolution my LO evolution code using MRST initial distributions MRST 2001 LO
DGLAP evolution my LO evolution code using MRST initial distributions MRST 2001 LO
PDF Uncertainties: Current Status Majority frequentist: • MRST papers on both theory and expt errors • Eur.Phys.J. C28 (2003) 455 [hep-ph/0211080] • [hep-ph/0308087] • CTEQuncertainties • JHEP 0207 (2002) 012 [hep-ph0201195] Bayesian: • W. Giele & S. Keller • Phys.Rev. D58 (1998) 094023 [hep-ph/9803393] – expt, NLO • [hep-ph/0104052] – expt, theory, NLO
priorbeliefs posterior beliefs experiment Frequentist Stats Bayesian Statistics – subjective probability What is it? Bayes theorem: deals with outcome of a repeatable experiment quantifies degree of belief • Bayesian provides a framework for dealing with theoretical errors (unlike frequentist statistics) • Theoretical errors dominate PDF uncertainties.
simple Bayesian example Tossing a coin What is the heads/tails bias? Taken from: Data Analysis: a Bayesian Tutorial, DS Sivia (OUP 1996)
simple Bayesian example Tossing a coin What is the heads/tails bias? Taken from: Data Analysis: a Bayesian Tutorial, DS Sivia (OUP 1996)
simple Bayesian example Tossing a coin What is the heads/tails bias? Taken from: Data Analysis: a Bayesian Tutorial, DS Sivia (OUP 1996)
simple Bayesian example Tossing a coin What is the heads/tails bias? Taken from: Data Analysis: a Bayesian Tutorial, DS Sivia (OUP 1996)
simple Bayesian example Tossing a coin What is the heads/tails bias? Taken from: Data Analysis: a Bayesian Tutorial, DS Sivia (OUP 1996)
simple Bayesian example Tossing a coin What is the heads/tails bias? Taken from: Data Analysis: a Bayesian Tutorial, DS Sivia (OUP 1996)
simple Bayesian example Tossing a coin What is the heads/tails bias? Taken from: Data Analysis: a Bayesian Tutorial, DS Sivia (OUP 1996)
simple Bayesian example Tossing a coin What is the heads/tails bias? Taken from: Data Analysis: a Bayesian Tutorial, DS Sivia (OUP 1996)
simple Bayesian example Tossing a coin What is the heads/tails bias? Taken from: Data Analysis: a Bayesian Tutorial, DS Sivia (OUP 1996)
How it will work… Step 1 • identify priors • use constraints • quantify more vague info • combine in a distribution of all parameters, Step 2 - meanwhile… • predict deep inelastic scattering (DIS) cross section from PDF (evolution: my LO code, QCDNUM NLO ) • calculate a likelihood function from DIS prediction and corresponding DIS data
… How it will work Step 3 • Maximise likelihood best fit parameters • Calculate posterior Step 4 • Look at effect e.g. on W production cross section • generatemany pdfsaccording to posterior distribution • calculate for each point histogram Step 5 • Vary priors and observe effect on results recall:
Width uncertainty in prediction of …How it will work…
… How it will work Step 3 • Maximise likelihood best fit parameters • Calculate posterior Step 4 • Look at effect e.g. on W production cross section • generatemany pdfsaccording to posterior distribution • calculate for each point histogram Step 5 • Vary priors and observe effect on results recall:
replace in likelihood Incompatible Data Sets Choice of data • influences the resulting best fit pdfs • some data sets seem to be incompatible • if one set is throwing the fit, when do you exclude it? • renormalisation scale errors Our solution • assign • a factor s that the uncertainty is underestimated by • a probability qof this happening • put suitable priors on s and q • bayesian fit s and q along with all the other parameters
Example problem: data with outlier • ‘Good Data’ • (Gausian distributed simulated data) • Least Squares Fit
Example problem: data with outlier • ‘Bad Data’ • one outlying point throws the fit • infact the mean has changed by more than the reported error • Least Squares Fit
Example problem: data with outlier • ‘Bad Data’ • reported uncertainty is increased but the mean is less affected • ‘Goof factor’ fitted
Higher order terms • insert extra parameters representing the next unknown order terms in splitting functions • fit these parameters – posterior distribution should give indication of the size of the next order terms Goodness of fit ( ) Not naturally provided by a Bayesian analysis • how satisfactory are the initial distributions? • generalise by adding an extra term • put a prior on that it has a small value • posterior for should indicategoodness of fit G(x) a very flexible function
Status • Very much in the early stages, but so far.. • Own LO DGLAP evolution program working • Very fruitful meeting, Durham Sept 2003 • James Stirling (MRST partons) • Michael Goldstein (Bayesian statistician) • Most recently working on… • C++ wrapping QCDNUM • integrating QCDNUM and my evolution code into next layer of the program which will allow comparison to data Ultimately aim to make the whole program available to all - not just the parton sets
