…of the two MoSe2 layers. These bilayer Wigner crystals, created from the commensurate stacking of triangular electron lattices, are remarkably stable and allow us to probe both quantum and classical…
…with quantum scars. To conclude, I will discuss open problems and outline promising directions for employing quantum simulators to advance our theoretical understanding of weak ergodicity breaking. [1] M. Ljubotina,…
…While classical approximations perform well for many chemical problems, they often fail to accurately make predictions about compounds where quantum effects dominate. However, existing quantum computing approaches are prohibitively expensive…
…spins in solids open interesting new avenues in quantum science and condensed matter. These nuclear spins are optically “hyperpolarized” into athermal states far from equilibrium, resulting in the enhancement of…
Extended atomic superfluids in the presence of a coherent coupling between two internal states represent a flexible platform to address open problems in condensed matter and fundamental physics. I will…
…the Festival makes science accessible, interactive, and fun, highlighting the impact of STEAM in all our lives. This year’s festival runs from October 3-9, based at the Kendall/MIT Open Space….
…systems or harmonic oscillators, it has only recently become available for complex, correlated quantum many-body systems. In the last five years, we have developed systems combining cavity QED with ultra-cold…
…entanglement. Moreover, they can be potentially exploited for the realization of robust quantum computation, as exemplified by the paradigmatic toric code model. While some indications that such phases may be…