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Controlling the ac Stark effect of RbCs with dc electric and magnetic fields (2020)
Journal Article
Blackmore, J. A., Sawant, R., Gregory, P. D., Bromley, S. L., Aldegunde, J., Hutson, J. M., & Cornish, S. L. (2020). Controlling the ac Stark effect of RbCs with dc electric and magnetic fields. Physical Review A, 102(5), Article 053316. https://doi.org/10.1103/physreva.102.053316

We investigate the effects of static electric and magnetic fields on the differential ac Stark shifts for microwave transitions in ultracold bosonic 87Rb133Cs molecules, for light of wavelength λ=1064nm. Near this wavelength we observe unexpected two... Read More about Controlling the ac Stark effect of RbCs with dc electric and magnetic fields.

Prospects of Forming High-Spin Polar Molecules from Ultracold Atoms (2020)
Journal Article
Frye, M. D., Cornish, S. L., & Hutson, J. M. (2020). Prospects of Forming High-Spin Polar Molecules from Ultracold Atoms. Physical Review X, 10(4), Article 041005. https://doi.org/10.1103/physrevx.10.041005

We investigate Feshbach resonances in collisions of high-spin atoms such as Er and Dy with closed-shell atoms such as Sr and Yb, using coupled-channel scattering and bound-state calculations. We consider both low-anisotropy and high-anisotropy limits... Read More about Prospects of Forming High-Spin Polar Molecules from Ultracold Atoms.

Robust entangling gate for polar molecules using magnetic and microwave fields (2020)
Journal Article
Hughes, M., Frye, M. D., Sawant, R., Bhole, G., Jones, J. A., Cornish, S. L., …Mur-Petit, J. (2020). Robust entangling gate for polar molecules using magnetic and microwave fields. Physical Review A, 101(6), Article 062308. https://doi.org/10.1103/physreva.101.062308

Polar molecules are an emerging platform for quantum technologies based on their long-range electric dipole–dipole interactions, which open new possibilities for quantum information processing and the quantum simulation of strongly correlated systems... Read More about Robust entangling gate for polar molecules using magnetic and microwave fields.

Ultracold polar molecules as qudits (2020)
Journal Article
Sawant, R., Blackmore, J., Gregory, P., Mur-Petit, J., Jaksch, D., Aldegunde, J., …Cornish, S. L. (2020). Ultracold polar molecules as qudits. New Journal of Physics, 22, Article 013027. https://doi.org/10.1088/1367-2630/ab60f4

We discuss how the internal structure of ultracold molecules, trapped in the motional ground state of optical tweezers, can be used to implement qudits. We explore the rotational, fine and hyperfine structure of $^{40}$Ca$^{19}$F and $^{87}$Rb$^{133}... Read More about Ultracold polar molecules as qudits.