Chiral order in 2D nonreciprocal flocks is generically unstable and destroyed by defect proliferation, yielding spatiotemporally chaotic dynamics with a diverging correlation length as nonreciprocity vanishes.
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Strong Mpemba effects in the antiferromagnetic Ising model arise from reentrant phase transitions that allow quenches to selectively avoid or excite the staggered slow relaxation mode in the paramagnetic phase.
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Breakdown of Emergent Chiral Order and Defect Chaos in Nonreciprocal Flocks
Chiral order in 2D nonreciprocal flocks is generically unstable and destroyed by defect proliferation, yielding spatiotemporally chaotic dynamics with a diverging correlation length as nonreciprocity vanishes.
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Strong Mpemba Effect Through a Reentrant Phase Transition
Strong Mpemba effects in the antiferromagnetic Ising model arise from reentrant phase transitions that allow quenches to selectively avoid or excite the staggered slow relaxation mode in the paramagnetic phase.