In our research, we leveraged the precise tunability of Ising and spin-exchange interactions via microwave and d.c. electric fields to explore complex many-body dynamics, demonstrating significant advances in the engineering of polar molecule systems.
The validation of XXZ spin models through Ramsey contrast dynamics not only highlights the efficacy of our Floquet microwave pulse sequences but also opens doors to explore Hamiltonians that were previously inaccessible with static fields.
Observations of two-axis twisting dynamics generated by a Floquet-engineered XYZ model with itinerant molecules in two-dimensional layers signal a pivotal shift in our approach to utilizing molecular structures for quantum simulations.
The potential applications of Floquet-engineered Hamiltonians could lead to breakthroughs in entangled state generation for precision measurements and richer quantum simulations of multi-level systems, expanding the horizons of molecular quantum dynamics.
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