Light-cone spreading of perturbations and the butterfly effect in a classical spin chain

Avijit Das, Saurish Chakrabarty, Abhishek Dhar, Anupam Kundu, Roderich Moessner, Samriddhi Sankar Ray, Subhro Bhattacharjee

Published 2017-11-20Version 1

We find that localised perturbations in a chaotic classical many-body system-- the classical Heisenberg spin chain -- spread ballistically with a finite speed and little change in form as a function of distance from the origin of the perturbation even when the local spin dynamics is diffusive. We study this phenomenon by shedding light on the two complementary aspects of this butterfly effect-- the rapid growth of perturbations and its simultaneous ballistic (light-cone) spread, as characterised by the Lyapunov exponents and the butterfly speed respectively. We connect this to recent studies of the out-of-time-ordered correlator (OTOC), which have been proposed as an indicator of chaos in a quantum system. We provide a straightforward identification of the OTOC with a correlator in our system and demonstrate that most of the interesting qualitative features -- with the exception of the physics of entanglement -- are present in the classical system. We present mostly results for the infinite temperature case but also discuss finite temperatures, where our results remain valid.