In highly improved staggered quark simulations by the HPQCD, MILC, and Fermilab Lattice collaborations, both the light quarks and the charm quark are staggered. We extend chiral perturbation theory for staggered quarks to include such all-staggered heavy-light mesons. We assume that the heavy quark action is sufficiently improved that we may take $a{m}_Q\ll 1$ (where $m_Q$ is the heavy quark mass), but also that $m_Q\gg {\Lambda }_{\mathrm{QCD}}$ so that a continuum heavy quark expansion is appropriate. We develop this effective chiral theory through next-to-leading order, and use it to study the pattern of taste splittings in the heavy-light meson and to compute the leptonic decay constant of the heavy-light meson to one loop in the chiral expansion.

• Received 25 September 2013

DOI:https://doi.org/10.1103/PhysRevD.88.094017