Non-perturbative tests of heavy quark effective theory
Jul, 200427 pages
Published in:
- JHEP 11 (2004) 048
e-Print:
- hep-ph/0407227 [hep-ph]
Report number:
- MS-TP-04-11,
- HU-EP-04-33,
- CERN-PH-TH-2004-114,
- DESY-04-102,
- SFB-CPP-04-19
Experiments:
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Abstract:
We consider QCD with one massless quark and one heavy quark in a finite volume of linear extent L_0 ~ 0.2 fm. In this situation, HQET represents an expansion in terms of 1/z=1/(m L_0), which we test by a non-perturbative computation of quenched current matrix elements and energies, taking the continuum limit of lattice results. These are seen to approach the corresponding renormalization group invariant matrix elements of the static effective theory as the quark mass becomes large. We are able to obtain estimates of the size of the 1/m-corrections to the static theory, which are also of practical relevance in our recent strategy to implement HQET non-perturbatively by matching to QCD in a finite volume.- B-Physics
- Heavy Quarks Physics
- Lattice QCD
- Phenomenological Models
- HQET model
- quantum chromodynamics
- nonperturbative
- correction: mass
- correlation function
- approximation: quenching
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