Coherent scattering from coupled two level systems

We study the resonance fluorescence properties of an optically active spin 1/2 system, elucidating the effects of a magnetic field on the coherence of the scattered light. We derive a master equation model for this system that reproduces the results of a two level system (TLS) while also being appli...

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Bibliographic Details
Published in:arXiv.org 2023-06
Main Authors: Nutz, Thomas, Mister, Samuel T, Androvitsaneas, Petros, Young, Andrew, Harbord, E, Rarity, J G, Oulton, Ruth, McCutcheon, Dara P S
Format: Article
Language:English
Subjects:
Coherent scattering
Optical activity
Resonance fluorescence
Resonance scattering
Spin dynamics
Online Access:Get full text
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Summary:We study the resonance fluorescence properties of an optically active spin 1/2 system, elucidating the effects of a magnetic field on the coherence of the scattered light. We derive a master equation model for this system that reproduces the results of a two level system (TLS) while also being applicable to a spin system with ground state coupling. This model is then solved analytically in the weak excitation regime. The inclusion of spin dynamics in our model alters the properties of the coherently scattered light at a fundamental level. For a TLS the coherence properties are known to be determined by the input laser. We show that spin scattered light inherits the coherence properties of the spin. This mapping allows us to measure spin dynamics and coherence time through direct measurement of the scattered fields. Furthermore, we show the ability to resolve sub-natural linewidth zeeman splittings. Along with representing an invaluable tool for spin spectroscopy understanding the coherence properties of the spin-scattered field will be vital for spin-photon based quantum technologies.
ISSN:2331-8422