Rapid-adiabatic-passage-based super-resolution microscopy in semiconductor quantum dot system
Autor: | Das, Partha, Hazra, Samit Kumar, Dey, Tarak Nath |
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Rok vydání: | 2023 |
Předmět: | |
Druh dokumentu: | Working Paper |
Popis: | We theoretically investigate rapid adiabatic passage(RAP)-based super-resolution imaging in a two-level quantum dot system interacting with two structured beams. To understand the physical mechanism behind the formation of super-resolution for the experiment of Kaldewey {\it et. al.,}[Nature Photonics 10.1038/s41566-017-0079-y (2018)], we first use Liouville's density matrix where photon-mediated radiative and non-radiative decays are incorporated. A suitably chosen spatiotemporal envelope of the structured beams enables the formation of a super-resolution image. We also find that the feature size of the image depends on the intensity of the Laguerre Gaussian beam(LG). However, the created image resolution undergoes distortion due to the existence of a low-intensity circular ring. The unwanted circular ring arises from the dominance of the LG beam tail over the super-Gaussian(SG) beam tail, initiating the residual population transfer from the ground state to the excited state. This limitation can be overcome by using the Bessel-modulated truncated structured LG and SG beams. We next study the dynamics of the semiconductor quantum dot system at finite temperatures wherein the phonon interaction becomes imperative. We employ the polaron-transformed master equation to explore the system at higher temperatures. Our numerical results confirm that the sharpness of the image remains intact at low temperatures with weak phonon coupling. Hence, the proposed scheme may open up applications in nano-scale imaging with quantum dots. Comment: 14 pages, 12 figures |
Databáze: | arXiv |
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