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Creators/Authors contains: "Lu, Yu-Kun"

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  1. ; ; ; ; ; (, Physical Review Letters)
  2. ; ; ; ; ; (, Science)
    Controlling ultracold atoms with laser light has greatly advanced quantum science. The wavelength of light sets a typical length scale for most experiments to the order of 500 nanometers (nm) or greater. In this work, we implemented a super-resolution technique that localizes and arranges atoms on a sub–50-nm scale, without any fundamental limit in resolution. We demonstrate this technique by creating a bilayer of dysprosium atoms and observing dipolar interactions between two physically separated layers through interlayer sympathetic cooling and coupled collective excitations. At 50-nm distance, dipolar interactions are 1000 times stronger than at 500 nm. For two atoms in optical tweezers, this should enable purely magnetic dipolar gates with kilohertz speed. 
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  3. ; ; ; (, Nature Physics)
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  4. ; ; ; ; ; ; ; (, Physical Review X)
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  5. ; ; ; ; ; ; ; (, Physical Review A)
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  6. ; ; (, Nature Physics)
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  7. ; ; ; ; (, Nature)
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  8. ; ; ; (, Science)
    Pauli blocking of spontaneous emission is responsible for the stability of atoms. Electrons cannot decay to lower-lying internal states that are already occupied. Pauli blocking also occurs when free atoms scatter light elastically (Rayleigh scattering) and the final external momentum states are already populated. This was predicted more than 30 years ago but is challenging to realize experimentally. Here, we report on Pauli blocking of light scattering in a dense quantum-degenerate Fermi gas of ultracold lithium atoms. When the Fermi momentum is larger than the photon recoil, most final momentum states are within the Fermi surface. At low temperature, we find that light scattered even at large angles is suppressed by 37% compared with higher temperatures, where atoms scatter at the single-atom Rayleigh scattering rate. 
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  9. ; ; ; ; ; (, Science)
    Short-range properties of Na–NaLi enable precise control of chemical reactivity using magnetic fields and quantum interference. 
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