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Generalized Pulse Design in Floquet Engineering: Application to Interacting Spin Systems

Published 28 Apr 2025 in quant-ph and cond-mat.quant-gas | (2504.20154v1)

Abstract: Floquet engineering in quantum simulation employs externally applied high frequency pulses to dynamically design steady state effective Hamiltonians. Such protocols can be used to enlarge the space of Hamiltonians but approximations often limit pulse profile shapes and therefore the space of available effective Hamiltonians. We consider a non-stroboscopic high frequency expansion formalism for Floquet engineering. We generalize the pulse profiles available by rigorously keeping all necessary terms to lowest order in inverse frequency expansions used to derive the effective Hamiltonians. Our approach allows wide tunability in application of external driving fields. We apply our method to long-range interacting XXZ spin Hamiltonians. We model an example application where we derive conditions on specific pulse shapes to engineer effective Ising models from XXZ models. Our method allows the space of continuous pulse profiles, relevant to experimental control fields, to better and more accurately explore possible effective Hamiltonians available for Floquet engineering.

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