We propose a quantum simulator made of magnetic atoms in periodic potentials, which will enable the investigation of quantum-many body problems associated with long-range dipole-dipole interactions. We propose to develop a number of new tools to increase the strength of dipole-dipole interactions (shorter-period UV lattices, magneto-association of magnetic atoms into molecules with a stronger magnetic moment), and to control and measure their interaction at the nano-scale (using super-resolution techniques and narrow spectroscopic lines). Most importantly, we will develop new probes to certify the presence of quantum correlations, which are expected to be particularly strong in these many-body long-range interacting systems. Experimentally, we will either probe correlations in real space (microscope, double-well lattices), in momentum space (Doppler spectroscopy, time-of-flight), or in the spin sector. These probes will be developed in close collaboration with theory, to find the best ways to define and quantify entanglement.<\/p>\n\n\n\n
Working towards these aims, our results so far include: (i) the construction of two new quantum gas microscope experiments to probe Er and Dy individually, or in a mixture combination. (ii) the experimental characterization of correlations by measuring collective spin fluctuations. (iii) a number of new proposals to characterize entanglement in large spin systems, such as: methods relevant for quantum gas microscopes; data-driven approaches to reconstruct optimal Bell inequalities and entanglement criteria tailored on the input of experiments, based on collective measurements; methods to retrieve higher-order correlations from single-shot images; methods to reveal entanglement in momentum space. A number of new numerical methods have been devised (time-dependent variational approach, time-dependent Schwinger-boson approach) or implemented (DMRG, exact diagonalization, BCS mean-field), which allowed to explore out-of-equilibrium dynamics, and a variety of models with long-range interactions such as the extended Bose-Hubbard model, long-range Kitaev chains, long-range XXZ model, or phonon modes in polarized magnetic atoms localized in an optical lattice.<\/p>\n\n\n\n
These first achievements set us in a good way to complete our program, which is to show that lattice-trapped magnetic atoms can be used as quantum simulators, in order to investigate various families of problems. First, we our aim is to probe low energy phases, and second, out-of-equilibrium situations to investigate dynamics and quantum thermalization. Thanks to these improvements, a number of phases could now be within experimental reach, such as the supersolid or stripe phases, or peculiar phases of spin systems with long-range interactions. We will aim at protocols to certify the nature of the quantum correlations within these systems. Such correlations can be explored in four different complementary setups: 1) an Er lattice gas within a Dy bath (Innsbruck); strongly dipolar lattice gases made of either 2) Dy atoms in UV lattices (Stuttgart) or 3) Dy2<\/sub> molecules in standard lattices (Pisa\/Florence), and 4) Cr atoms realizing lattice spin models (Paris).<\/p>\n\n\n\nMore info on Quantera’s website<\/a><\/p>\n","protected":false},"excerpt":{"rendered":"We propose to realize a novel quantum simulator made of magnetic atoms in periodic potentials, which will enable the investigation of quantum-many body problems associated with long-range dipole-dipole interactions.<\/p>\n","protected":false},"author":3,"featured_media":1912,"comment_status":"closed","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"_themeisle_gutenberg_block_has_review":false,"_jetpack_memberships_contains_paid_content":false,"footnotes":""},"categories":[73,40],"tags":[26],"class_list":["post-1903","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-chromium-news","category-news","tag-bruno-laburthe-tolra"],"blocksy_meta":[],"yoast_head":"\n
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