Inefficiency of chiral dynamos in protoneutron stars and the early universe
Abstract
The chiral plasma instability (CPI) has been invoked as a possible mechanism for generating primordial magnetic fields in the universe and ultrastrong fields in neutron stars. We investigate chiral dynamos where the chirality imbalance is pumped by a source on a timescale t0 and show that the CPI rate γ is limited to γ0/(1+ Q2), where Q= (γ0 t0)1/3 and γ0 corresponds to models with instantaneously created chirality imbalance (t0=0). We then find that chiral flipping with rate f hinders the chiral dynamo if f >γ0/(1+ Q2) and completely suppresses it if f >γ0/(1+ Q3/2). Realistic t0 typically give Q 1, which makes the dynamo greatly vulnerable to suppression by chiral flipping. The suppression is strong in protoneutron stars and may be (barely) avoided near the electroweak transition in the early universe.
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