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| Home > External Publications > Coordinated Projects > Numerically Efficient Theoretical Frameworks for Collective Spontaneous Emission |
| Dissertation / PhD Thesis | PUBDB-2026-00121 |
2025
Abstract: Cooperative spontaneous emission, or superradiance, occurs when a group of excited atoms emit light coherently in an intense burst due to synchronized dipole moments. This phenomenon is significant for applications in spectroscopy, metrology, and high-brightness light sources. Modeling such collective emission is challenging for large atomic systems, prompting the development of efficient numerical frameworks. This dissertation introduces a second-quantized formalism in Liouville space and a stochastic approach based on the positive P-representation. These methods are applied to study compact systems of multi-level emitters under incoherent pumping and decoherence. Numerical results benchmark the two approaches and highlight their utility and limitations for simulating many-body quantum effects.
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