Physical Review Research (Nov 2024)

Quantum many-body scars in few-body dipole-dipole interactions

  • Sarah E. Spielman,
  • Alicia Handian,
  • Nina P. Inman,
  • Thomas J. Carroll,
  • Michael W. Noel

DOI
https://doi.org/10.1103/PhysRevResearch.6.043086
Journal volume & issue
Vol. 6, no. 4
p. 043086

Abstract

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We simulate the dynamics of Rydberg atoms resonantly exchanging energy via two-, three-, and four-body dipole-dipole interactions in a one-dimensional array. Using simplified models of a realistic experimental system, we study the initial-state survival probability, mean level spacing, spread of entanglement, and properties of the energy eigenstates. By exploring a range of disorders and interaction strengths, we find regions in parameter space where the three- and four-body dynamics either fail to thermalize or do so slowly. The interplay between the stronger hopping and weaker field-tuned interactions gives rise to quantum many-body scar states, which play a critical role in slowing the dynamics of the three- and four-body interactions.