Spin-charge separation in 1D fermions enables partially gapped deconfined quantum critical points between locally ordered phases, inferred via field theory and supported by numerical analysis of a microscopic model.
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A method to tailor dipolar interaction ranges in atom arrays by adding far-detuned relay atoms and adiabatically eliminating them to derive effective equations of motion.
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Deconfined quantum critical points in fermionic systems with spin-charge separation
Spin-charge separation in 1D fermions enables partially gapped deconfined quantum critical points between locally ordered phases, inferred via field theory and supported by numerical analysis of a microscopic model.
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Tailoring interaction ranges in atom arrays
A method to tailor dipolar interaction ranges in atom arrays by adding far-detuned relay atoms and adiabatically eliminating them to derive effective equations of motion.