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FINALIST: Deep Laser Cooling and Coherent Control of Molecules

ORAL · Invited

Abstract



Ultracold molecules offer qualitatively different properties to those of atoms, promising a wide range of diverse and exciting applications. These include controlled quantum chemistry, probes of physics beyond the Standard Model, and—by utilizing the long-range dipole-dipole interactions between pairs of molecules—simulation of many-body quantum systems and quantum information processing. However, the rich internal structure of molecules makes the required control of their motional and internal states difficult. Here I describe our development of the tools required to produce, trap, cool, and control CaF molecules. I detail experimental results capturing CaF molecules in a MOT, cooling them to 5 μK in a blue-detuned optical molasses, and using a combination of optical pumping and coherent microwave control to transfer them to a state where they can be magnetically trapped for up to 5 s. Finally, I will look forward and discuss how we can implement high-fidelity quantum gates between pairs of these ultracold molecules.


Publication: S. Truppe, H. J. Williams, M. Hambach, L. Caldwell, N. J. Fitch, E. A. Hinds, B. E.Sauer, and M. R. Tarbutt, "Molecules cooled below the Doppler limit", Nat. Phys. 13,1173–1176 (2017).<br>H. J. Williams, S. Truppe, M. Hambach, L. Caldwell, N. J. Fitch, E. A. Hinds, B. E. Sauer, and M. R. Tarbutt, "Characteristics of a magneto-optical trap of molecules", New J. Phys. 19, 113035 (2017).<br>H. J. Williams, L. Caldwell, N. J. Fitch, S. Truppe, J. Rodewald, E. A. Hinds, B. E.Sauer, and M. R. Tarbutt, "Magnetic Trapping and Coherent Control of Laser-Cooled Molecules", Phys. Rev. Lett. 120, 163201 (2018).<br>J. A. Blackmore, L. Caldwell, P. D. Gregory, E. M. Bridge, R. Sawant, J. Aldegunde, J. Mur-Petit, D. Jaksch, J. M. Hutson, B. E. Sauer, M. R. Tarbutt, and S. L. Cornish, "Ultracold molecules for quantum simulation: rotational coherences in CaF and RbCs", Quantum Sci. Technol. 4, 014010 (2018).<br>L. Caldwell, J. A. Devlin, H. J. Williams, N. J. Fitch, E. A. Hinds, B. E. Sauer, and M. R. Tarbutt, "Deep Laser Cooling and Efficient Magnetic Compression of Molecules", Phys. Rev. Lett. 123, 033202 (2019).<br>L. Caldwell, H. J. Williams, N. J. Fitch, J. Aldegunde, J. M. Hutson, B. E. Sauer, and M. R. Tarbutt, "Long Rotational Coherence Times of Molecules in a Magnetic Trap", Phys. Rev. Lett. 124, 063001 (2020).<br>L. Caldwell and M. R. Tarbutt, "Sideband cooling of molecules in optical traps", Phys. Rev. Res. 2, 013251 (2020).<br>L. Caldwell and M. R. Tarbutt, "Enhancing Dipolar Interactions between Molecules Using State-Dependent Optical Tweezer Traps", Phys. Rev. Lett. 125, 243201 (2020).<br>L. Caldwell and M. Tarbutt, "General approach to state-dependent optical-tweezer traps for polar molecules", Phys. Rev. Res. 3, 013291 (2021).

Presenters

  • Luke A Caldwell

    University of Colorado, Boulder, JILA, University of Colorado Boulder and NIST, JILA, Imperial College London

Authors

  • Luke A Caldwell

    University of Colorado, Boulder, JILA, University of Colorado Boulder and NIST, JILA, Imperial College London