References & Citations
Quantum Physics
Title: Enhanced twist-and-turn dynamics of spin squeezing in internal bosonic Josephson junctions
(Submitted on 30 Apr 2024)
Abstract: The twist-and-turn dynamics of spin squeezing results from the interplay of the (nonlinear) one-axis-twisting- and the (linear) transverse-field turning term in the underlying Hamiltonian, both with constant (time-independent) respective coupling strengths. Using the methods of shortcuts to adiabaticity (STA) and their recently proposed enhanced version (eSTA), we demonstrate here that dynamics of this type can be utilized for a fast and robust preparation of spin-squeezed states in internal bosonic Josephson junctions -- condensates of cold bosonic atoms in two different internal (hyperfine) states (single-boson modes). Assuming that the initial state of this system is the coherent spin state with all the bosons in the equal superposition of the two single-boson modes and that the nonlinear-coupling strength in this system remains constant, we set out to determine the time-dependence of the linear-coupling strength using the STA and eSTA approaches. We then quantitatively characterize the modified twist-and-turn dynamics in this system by evaluating the coherent spin-squeezing- and number-squeezing parameters, as well as the fidelity of the target spin-squeezed states. In this manner, we show that the eSTA approach allows for a particularly robust experimental realization of strongly spin-squeezed states in this system, consistently outperforming its adiabatic and STA-based counterparts, even for systems with several hundred particles.
Submission history
From: Vladimir Stojanovic M. [view email][v1] Tue, 30 Apr 2024 16:24:43 GMT (350kb,D)
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