Constraints on hadronic spectral functions from continuous families of finite energy sum rules

Hadronic τ decay data is used to study the reliability of various finite energy sum rules (FESRʹs). For intermediate scales (s0∼2–3 GeV2), those FESRʹs with weights sk are found to have significant errors, whereas those with weights having a zero at the juncture (s=s0) of the cut and circular part of the contour work very well. It is also shown that a combination of two such sum rules allows rather strong constraints to be placed on the hadronic spectral function without sacrificing the excellent agreement between OPE and hadronic representations. The method then is applied to the strangeness S=−1 and pseudoscalar isovector channels, where it is shown to provide novel constraints on those ansatze for the unmeasured continuum parts of the spectral functions employed in existing extractions of mu+md, ms. The continuum ansätz in the latter channel, in particular, is shown to produce a rather poor match to the corresponding OPE representation, hence re-opening the question of the value of the light quark mass combination mu+md.