Matter Wave Lensing to Picokelvin Temperatures Article Swipe

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Physics Dark matter Matter wave Astrophysics Quantum mechanics Quantum

Tim Kovachy , Jason M. Hogan , Alex Sugarbaker , Susannah Dickerson , Christine A. Donnelly , Chris Overstreet , Mark A. Kasevich ·

YOU? · · 2015 · Open Access · · DOI: https://doi.org/10.1103/physrevlett.114.143004 · OA: W2000577209

Using a matter wave lens and a long time of flight, we cool an ensemble of ^{87}Rb atoms in two dimensions to an effective temperature of less than 50_{-30}^{+50} pK. A short pulse of red-detuned light generates an optical dipole force that collimates the ensemble. We also report a three-dimensional magnetic lens that substantially reduces the chemical potential of evaporatively cooled ensembles with a high atom number. By observing such low temperatures, we set limits on proposed modifications to quantum mechanics in the macroscopic regime. These cooling techniques yield bright, collimated sources for precision atom interferometry.