Droplet Arrays in Doubly-Dipolar Bose-Einstein condensates

TL;DR

This paper explores the complex ground-state behaviors of doubly-dipolar Bose-Einstein condensates, revealing new phases like supersolids and droplet arrays driven by magnetic and electric dipole interactions.

Contribution

It introduces the theoretical possibility of engineering quantum droplets and supersolids in doubly-dipolar condensates, highlighting novel phase transitions and array formations.

Findings

Discovery of supersolid-supersolid transitions

Proposal of supersolid arrays of pancake droplets

Rich ground-state phase diagram of doubly-dipolar gases

Abstract

Gases of doubly-dipolar particles, with both magnetic and electric dipole moments, offer intriguing novel possibilities. We show that the interplay between doubly-dipolar interactions, quantum stabilization, and external confinement results in a rich ground-state physics of supersolids and incoherent droplet arrays in doubly-dipolar condensates. Our study reveals novel possibilities for engineering quantum droplets and droplet supersolids, including supersolid-supersolid transitions and the realization of supersolid arrays of pancake droplets.