…will report our recent experiments using ultracold two-electron atoms of ytterbium loaded into an optical lattice. In quantum simulation research, the study of an SU(N=6) Fermi-Hubbard model with 173Yb allows…
…the charge of the electron play in determining the electrical conduction properties of the cuprates, nor how these degrees of freedom are intertwined. A research group led by Martin Zwierlein…
…and non-linear interaction. Complementing this work, we plan to investigate the formation of Rydberg states in neutral color centers in diamond, where hydrogenic orbitals emerge under resonant optical excitation. Hoping…
Macroscopic quantum states of mechanical oscillators have been proposed as quantum sensors and for tests of quantum mechanics in unprecedented regimes [1]. In the field of cavity optomechanics, a mechanical…
The study of the interaction of atoms with the electromagnetic modes of a waveguide is a platform to study the propagation of pulses and their relationship with changes in atomic…
The alkaline-earth element strontium has a rich electronic structure comprising metastable states, broad and narrow linewidth transitions, and a ground state free of electronic magnetic moment. We exploit these properties…
…vision to manufacture such artificial qubit systems at volumes comparable to integrated electronics. Although there has been remarkable progress in this very active area of research, fabrication and materials complications…
Physicists in the US have come up with a way of making photons repel each other by sending them through an ultracold atomic gas. This astonishing feat could lead to…
CUA research has been selected as one of the Top 10 Breakthroughs of 2021 by Physics World. The selected research is the observation of Pauli blocking of light scattering by…