Scaling approach to order-parameter fluctuations in disordered frustrated systems
Abstract
We present a constructive approach to obtain information about the compactness and shape of large-scale lowest excitations in disordered systems by studying order-parameter fluctuations (OPF) at low temperatures. We show that the parameter G which measures OPF is 1/3 at T=0 provided the ground state is unique and the probability distribution for the lowest excitations is gapless and with finite weight at zero-excitation energy. We then apply zero-temperature scaling to describe the energy and volume spectra of the lowest large-scale excitations which scale with the system size and have a weight at ze ro energy Pv(0) l-θ' with v=ld. A low-temperature expansion reveals that, OPF vanish like L-θ, if θ> 0 and remain finite for space filling lowest excitations with θ=0. The method can be extended to extract information about the shape and fractal surface of the large-scale lowest excitations.
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