Bandstructure of a coupled BEC-cavity system: effects of dissipation and geometry

• URL: http://arxiv.org/abs/2504.17730v1
• Date: Thu, 24 Apr 2025 16:43:45 GMT
• Title: Bandstructure of a coupled BEC-cavity system: effects of dissipation and geometry
• Authors: David Baur, Simon Hertlein, Alexander Baumgärtner, Justyna Stefaniak, Tilman Esslinger, Gabriele Natale, Tobias Donner,
• Abstract summary: We present a theoretical model for a Bose-Einstein condensate coupled to an optical cavity.<n>We focus on the interplay between different coherent couplings, which can trigger a structural phase transition.<n>We find non-Hermitian phenomena such as the coalescence of crossing precursor modes.
• Score: 36.136619420474766
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: We present a theoretical model for a transversally driven Bose-Einstein condensate coupled to an optical cavity. We focus on the interplay between different coherent couplings, which can trigger a structural phase transition, known as the superradiant phase transition. Our approach, based on band structure theory and a mean-field description, enables a comprehensive analysis of the nature of the system's excited modes, precursing the phase transitions. By incorporating dissipative couplings, intrinsic to these systems, we find non-Hermitian phenomena such as the coalescence of crossing precursor modes and the emergence of exceptional points (EPs). The general formulation of our model allows us to explain the role of an angle between transverse pump and the cavity deviating from $90^\circ$. This offers us a unified perspective on the plethora of different implementations of such systems.

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