HIGHLIGHTS
SUMMARY
Coherent manipulation of quantum many-body systems far from equilibrium is key to unlocking outstanding problems in quantum sciences including strongly coupled quantum field theories, exotic phases of matter, and development of enhanced metrology and computation schemes. The authors observe many-body scarring in a largescale Bose-Hubbard quantum simulator, where the authors employ a tilted optical lattice to emulate the PXP model, a canonical model of many-body scarring. Each spin can exist in two possible states, |◦ and |., corresponding to the ground_state and excited_state, respectively. The projectors onto the ground_state, P̂=|◦ ◦|, constrain the . . .
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