A pulsed terahertz field switches Rydberg atom interactions by three orders of magnitude, demonstrated via interaction-induced dephasing of a stored photon.
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Moire superlattices naturally create tunable arrays of artificial atoms with uniform optical transition energies suitable for quantum optics applications across many wavelengths.
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Switching Rydberg interactions by three orders of magnitude using a terahertz field
A pulsed terahertz field switches Rydberg atom interactions by three orders of magnitude, demonstrated via interaction-induced dephasing of a stored photon.
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Artificial-atom arrays in moire superlattices for quantum optics
Moire superlattices naturally create tunable arrays of artificial atoms with uniform optical transition energies suitable for quantum optics applications across many wavelengths.