We propose a scheme to generate solitons in arbitrary dimensions, in a
matter-wave interferometer, without the need of quantum degeneracy. In our
setting, solitons emerge by balancing the single-particle dispersion with
engineered cavity-mediated exchange interactions between two wave packets,
which, at the appropriate conditions, remain bound to each other and
dispersion-free. For detection in thermal gases, we propose an interferometric
probing scheme instead of traditional time-of-flight imaging.

Questo articolo esplora i giri e le loro implicazioni.

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