Ultrafast adiabatic passages in ultrastrongly coupled light-matter systems
Abstract
We have obtained the solutions of the multimode quantum Rabi model when all modes have identical frequencies ω, including dark states |φK with at least K (K=1,2,3,…) photons. Extended to the multiqubit case, they lie close to another dark state with at most one photon in the spectrum. Taking advantages of such solutions, we find a linear and symmetry-protected adiabatic passage through to fast generate arbitrary single-photon M-mode W states WM with exactly the same speed. The effective minimum energy gap during the adiabatic evolution is further enlarged to 0.63ω when Stark shifts are included, such that arbitrary WM can be ultrafast generated in 1.55× 2πω-1 with fidelity 99\%, indepedent of M. This work reveals the existence of linear ultrafast adiabatic passages in light-matter systems.
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