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Creators/Authors contains: "Matsuda, Kyle"

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  1. ; ; ; ; ; ; (, Nature)
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  2. ; ; ; ; ; ; ; (, Science)
    Layer-resolved state preparation and imaging is reported in highly tunable two-dimensional layers of ultracold potassium–rubidium molecules in an optical lattice. 
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  3. ; ; ; ; ; (, Nature)
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  4. ; ; ; ; ; ; ; (, Physical Review Letters)
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  5. ; ; ; ; ; ; ; ; ; ; et al (, Nature Physics)
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  6. ; ; ; ; ; (, Physical Review Letters)
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  7. ; ; ; ; ; ; ; ; ; ; et al (, Physical Review A)
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  8. ; ; ; ; ; (, Science)
    Experimental realization of a quantum degenerate gas of molecules would provide access to a wide range of phenomena in molecular and quantum sciences. However, the very complexity that makes ultracold molecules so enticing has made reaching degeneracy an outstanding experimental challenge over the past decade. We now report the production of a degenerate Fermi gas of ultracold polar molecules of potassium-rubidium. Through coherent adiabatic association in a deeply degenerate mixture of a rubidium Bose-Einstein condensate and a potassium Fermi gas, we produce molecules at temperatures below 0.3 times the Fermi temperature. We explore the properties of this reactive gas and demonstrate how degeneracy suppresses chemical reactions, making a long-lived degenerate gas of polar molecules a reality. 
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  9. ; ; ; ; ; ; (, Science)
    Full control of molecular interactions, including reactive losses, would open new frontiers in quantum science. We demonstrate extreme tunability of ultracold chemical reaction rates by inducing resonant dipolar interactions by means of an external electric field. We prepared fermionic potassium-rubidium molecules in their first excited rotational state and observed a modulation of the chemical reaction rate by three orders of magnitude as we tuned the electric field strength by a few percent across resonance. In a quasi–two-dimensional geometry, we accurately determined the contributions from the three dominant angular momentum projections of the collisions. Using the resonant features, we shielded the molecules from loss and suppressed the reaction rate by an order of magnitude below the background value, thereby realizing a long-lived sample of polar molecules in large electric fields. 
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