Disordered bosons: Critical phenomena and evidence for new low energy excitations

We study the T=0 critical properties of the superfluid-insulator transition in 2D hard core Bose systems with disorder. Using quantum Monte Carlo simulations and finite size scaling on 64×64 lattices we find the dynamical exponent z=0.5±0.1 and the correlation length exponent ν=2.2±0.2. At the transition, the system is metallic with a conductivity ${\mathrm{\sigma }}_{\mathit{c}}$=(1.2±0.2)(${\mathit{e}}^{\mathrm{*}}$${)}^2$/h and a nonzero compressibility κ≠0. These conclusions differ from the existing scaling theory as well as from simulations on simplified models argued to be in the same universality class. Our results are suggestive of new low lying collective excitations (modified from usual phonons) in the disordered system.