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arxiv: 2103.15828 · v1 · pith:N4H3XPUAnew · submitted 2021-03-29 · 🪐 quant-ph · cond-mat.quant-gas

The Lieb-Robinson light cone for power-law interactions

classification 🪐 quant-ph cond-mat.quant-gas
keywords informationinteractionslieb-robinsonpower-lawquantumalphadistancesystems
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The Lieb-Robinson theorem states that information propagates with a finite velocity in quantum systems on a lattice with nearest-neighbor interactions. What are the speed limits on information propagation in quantum systems with power-law interactions, which decay as $1/r^\alpha$ at distance $r$? Here, we present a definitive answer to this question for all exponents $\alpha>2d$ and all spatial dimensions $d$. Schematically, information takes time at least $r^{\min\{1, \alpha-2d\}}$ to propagate a distance~$r$. As recent state transfer protocols saturate this bound, our work closes a decades-long hunt for optimal Lieb-Robinson bounds on quantum information dynamics with power-law interactions.

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