We report on the formation of multiple quantum droplets in a heteronuclear K41-Rb87 mixture released in an optical waveguide. By a sudden change of the interspecies interaction from the noninteracting to the strongly attractive regime, we initially form a single droplet in an excited compression-elongation mode. The latter axially expands up to a critical length and then splits into two or more smaller fragments, recognizable as quantum droplets. We find that the number of formed droplets increases with decreasing interspecies attraction and increasing atom number. We show, by combining theory and experiment, that this behavior is consistent with capillary instability, which causes the breakup of the stretching droplet due to the surface tension. Our results open new possibilities to explore the properties of quantum liquids and systems of multiple quantum droplets in two-component bosonic mixtures.
Cavicchioli, L., Fort, C., Ancilotto, F., Modugno, M., Minardi, F., Burchianti, A. (2025). Dynamical Formation of Multiple Quantum Droplets in a Bose-Bose Mixture. PHYSICAL REVIEW LETTERS, 134(9), 093401-1-093401-5 [10.1103/physrevlett.134.093401].
Dynamical Formation of Multiple Quantum Droplets in a Bose-Bose Mixture
Cavicchioli, L.
Primo
;Minardi, F.;
2025
Abstract
We report on the formation of multiple quantum droplets in a heteronuclear K41-Rb87 mixture released in an optical waveguide. By a sudden change of the interspecies interaction from the noninteracting to the strongly attractive regime, we initially form a single droplet in an excited compression-elongation mode. The latter axially expands up to a critical length and then splits into two or more smaller fragments, recognizable as quantum droplets. We find that the number of formed droplets increases with decreasing interspecies attraction and increasing atom number. We show, by combining theory and experiment, that this behavior is consistent with capillary instability, which causes the breakup of the stretching droplet due to the surface tension. Our results open new possibilities to explore the properties of quantum liquids and systems of multiple quantum droplets in two-component bosonic mixtures.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
