Dielectric distributed Bragg reflectors: towards strong light-matter interactions
In this report, we present the observations of strong exciton-polariton coupling in a semiconductor quantum microcavity structure. The first section will begin by introducing the mathematical tools used to generate the simulated theoretical transmission spectra via transfer matrix methods. The di...
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sg-ntu-dr.10356-1631642023-02-28T23:17:47Z Dielectric distributed Bragg reflectors: towards strong light-matter interactions Dyah Ayu Nurun Nafisah Gao Weibo School of Physical and Mathematical Sciences Jesus Zuniga Perez jesus.zuniga@ntu.edu.sg, wbgao@ntu.edu.sg Science::Physics In this report, we present the observations of strong exciton-polariton coupling in a semiconductor quantum microcavity structure. The first section will begin by introducing the mathematical tools used to generate the simulated theoretical transmission spectra via transfer matrix methods. The discussion will then be followed by the concepts of particle interactions which cover the notions of exciton and polariton in the microcavity. The section will be finished with the explanation on the structure and the frameworks of the semiconductor quantum microcavity as well as the principles of the techniques that were adopted in the experiments. The simulated transmission spectra reveal several parameters that can affect the stopband properties of the microcavity, such as refractive index contrast, a number of bi-layer pairs, the relative configuration between the top and the bottom DBRs, as well as the presence of additional layer in between the two DBRs. Experiments were done on both the empty microcavity and the microcavity involving the dielectric active region. While the experiment at room temperature did not succeed in observing the presence of strong exciton-polariton coupling, the experiment conducted at cryogenic temperature showed the presence of Rabi splitting in the energy dispersion which suggests the existence of strong coupling in the cavity structure. Upon the completion of this project, further study on the strong coupling will be conducted to uncover many other properties of the semiconductor quantum microcavity. Bachelor of Science in Physics 2022-11-28T23:57:34Z 2022-11-28T23:57:34Z 2022 Final Year Project (FYP) Dyah Ayu Nurun Nafisah (2022). Dielectric distributed Bragg reflectors: towards strong light-matter interactions. Final Year Project (FYP), Nanyang Technological University, Singapore. https://hdl.handle.net/10356/163164 https://hdl.handle.net/10356/163164 en application/pdf Nanyang Technological University |
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Science::Physics Dyah Ayu Nurun Nafisah Dielectric distributed Bragg reflectors: towards strong light-matter interactions |
| description |
In this report, we present the observations of strong exciton-polariton coupling
in a semiconductor quantum microcavity structure. The first section
will begin by introducing the mathematical tools used to generate the simulated
theoretical transmission spectra via transfer matrix methods. The discussion
will then be followed by the concepts of particle interactions which
cover the notions of exciton and polariton in the microcavity. The section
will be finished with the explanation on the structure and the frameworks of
the semiconductor quantum microcavity as well as the principles of the techniques
that were adopted in the experiments. The simulated transmission
spectra reveal several parameters that can affect the stopband properties of
the microcavity, such as refractive index contrast, a number of bi-layer pairs,
the relative configuration between the top and the bottom DBRs, as well as the
presence of additional layer in between the two DBRs. Experiments were
done on both the empty microcavity and the microcavity involving the dielectric
active region. While the experiment at room temperature did not succeed in
observing the presence of strong exciton-polariton coupling, the experiment
conducted at cryogenic temperature showed the presence of Rabi splitting in
the energy dispersion which suggests the existence of strong coupling in the
cavity structure. Upon the completion of this project, further study on the
strong coupling will be conducted to uncover many other properties of the
semiconductor quantum microcavity. |
| author2 |
Gao Weibo |
| author_facet |
Gao Weibo Dyah Ayu Nurun Nafisah |
| format |
Final Year Project |
| author |
Dyah Ayu Nurun Nafisah |
| author_sort |
Dyah Ayu Nurun Nafisah |
| title |
Dielectric distributed Bragg reflectors: towards strong light-matter interactions |
| title_short |
Dielectric distributed Bragg reflectors: towards strong light-matter interactions |
| title_full |
Dielectric distributed Bragg reflectors: towards strong light-matter interactions |
| title_fullStr |
Dielectric distributed Bragg reflectors: towards strong light-matter interactions |
| title_full_unstemmed |
Dielectric distributed Bragg reflectors: towards strong light-matter interactions |
| title_sort |
dielectric distributed bragg reflectors: towards strong light-matter interactions |
| publisher |
Nanyang Technological University |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163164 |
| _version_ |
1759857340533702656 |