Q-ball superradiance: Analytical approach

Abstract

It was recently discovered that waves scattering off a Q-ball can extract energy from it. We present an analytical treatment of this process by adopting a multi-step function approximation for the background field, which yields perturbative solutions expressed in terms of Bessel functions. For thin-wall Q-balls, the amplification factors reduce to simple sinusoidal functions, which explains the multi-peak structure of the spectrum and identifies the physical quantities that determine it. For instance, at high frequencies, the peak spacing is simply the inverse of the Q-ball size. The analytical solution further enables us to delineate the full range of possible amplification factors. For general Q-balls, this analytical framework also substantially improves the efficiency of evaluating the amplification factors.

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