Power-Laws in Nonlinear Granular Chain under Gravity
Abstract
The signal generated by a weak impulse propagates in an oscillatory way and dispersively in a gravitationally compacted granular chain. For the power-law type contact force, we show analytically that the type of dispersion follows power-laws in depth. The power-law for grain displacement signal is given by h-1/4(1-1/p) where h and p denote depth and the exponent of contact force, and the power-law for the grain velocity is h-1/4(1/3+1/p). Other depth-dependent power-laws for oscillation frequency, wavelength, and period are given by combining above two and the phase velocity power-law h1/2(1-1/p). We verify above power-laws by comparing with the data obtained by numerical simulations.
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