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arxiv: 1503.02634 · v2 · pith:KEB7A3VZnew · submitted 2015-03-09 · 🌀 gr-qc · physics.flu-dyn

Slow Sound in a duct, effective transonic flows and analogue black holes

classification 🌀 gr-qc physics.flu-dyn
keywords analogueflowsdispersiveducteffectivegravityone-dimensionalreduction
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We propose a new system suitable for studying analogue gravity effects, consisting of a gas flowing in a duct with a compliant wall. Effective transonic flows are obtained from uniform, low Mach number flows through the reduction of the one-dimensional speed of sound induced by the wall compliance. We show that the modified equation for linear perturbations can be written in a Hamiltonian form. We perform a one-dimensional reduction consistent with the canonical formulation, and deduce the analogue metric along with the first dispersive term. In a weak dispersive regime, the spectrum emitted from a sonic horizon is numerically shown to be Planckian, and with a temperature fixed by the analogue surface gravity.

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