…I will describe our development of a molecular quantum gas microscope that allowed us to study correlated systems with dipolar interactions. There, I will report on the study of the…
A two-electron atom of ytterbium (Yb) is remarkable in the study of ultracold dilute gases in that it offers many interesting possibilities. The two valence electrons result in singlet and…
…entanglement between the probe and sample and open systems dynamics are some of the tools needed to reach accuracy limits when dealing with quantum systems at very low temperatures. …
…entangling the molecular ion with the logic ion [7]. Transitions in the molecule are either driven by a single, far off-resonant continuous-wave laser, by a far-off-resonant frequency comb or a…
In recent years, systems of ultracold atoms in optical lattices have opened new opportunities for exploring time-dependent many-body dynamics. In addition to coherent phenomena, it has become possible to engineer…
…system exhibits hysteresis. At higher rotation rates we have directly measured the onset of resistive flow across the weak link. Such measurements may open new avenues of research in quantum…
…improvement compared to the previous best results [2, 3]. This talk will focus on new upgrades in the 3rd generation ACME [4] which aim for further suppression of both statistical…
…to (n-1) and n to (n+1) transition, respectively. d) Squeezed-clock protocol. A SSS is created in the ground-state levels {|↓⟩ , |↑⟩}, transferred to the clock manifold {|g⟩ , |e⟩},…
…measured isotope shifts are mapped in a 2-D graph called King plot, all points should be on a single line, predicted by the Standard Model. Testing the linearity comes down…