Exceptional points in anisotropic photonic structures : From non-Hermitian physics to possible device applications
(2017) Oxide-Based Materials and Devices VIII 2017 In Proceedings of SPIE - The International Society for Optical Engineering 10105.- Abstract
We demonstrate that exceptional points exist in fully transparent, optically "effectively" biaxial, anisotropic micro-cavities, fabricated using an uniaxial cavity material with its axis inclined to the Bragg mirror growth direction. This is similar to the existence of singular (optic) axes in absorbing biaxial crystals, but the lack of time reversal symmetry is mediated by the mode broadening, i.e. the photon escape from the - in principle - open cavity system. As a consequence the eigenmodes are generally elliptically polarized, and completely circularly polarized eigenmodes are expected in certain directions. Via geometric and chemical composition design degrees of freedom, the spectral and angular position of these chiral modes can... (More)
We demonstrate that exceptional points exist in fully transparent, optically "effectively" biaxial, anisotropic micro-cavities, fabricated using an uniaxial cavity material with its axis inclined to the Bragg mirror growth direction. This is similar to the existence of singular (optic) axes in absorbing biaxial crystals, but the lack of time reversal symmetry is mediated by the mode broadening, i.e. the photon escape from the - in principle - open cavity system. As a consequence the eigenmodes are generally elliptically polarized, and completely circularly polarized eigenmodes are expected in certain directions. Via geometric and chemical composition design degrees of freedom, the spectral and angular position of these chiral modes can be rationally designed. Possible applications arise from the use of such directions for circularly polarized emission without the use of spin injection or internal or external magnetic fields. Also the coupling of such modes to excitons, adding oscillator strength to the system, seems a promising avenue of research.
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- author
- Grundmann, Marius ; Richter, Steffen LU ; Michalsky, Tom ; Sturm, Chris ; Zúñiga-Pérez, Jesús and Schmidt-Grund, Rüdiger
- publishing date
- 2017
- type
- Chapter in Book/Report/Conference proceeding
- publication status
- published
- keywords
- Exceptional points, Micro-cavities, Polarization, ZnO
- host publication
- Oxide-Based Materials and Devices VIII 2017
- series title
- Proceedings of SPIE - The International Society for Optical Engineering
- editor
- Teherani, Ferechteh H. ; Look, David C. ; Rogers, David J. and Bozovic, Ivan
- volume
- 10105
- article number
- 101050K
- publisher
- SPIE
- conference name
- Oxide-Based Materials and Devices VIII 2017
- conference location
- San Francisco, United States
- conference dates
- 2017-01-29 - 2017-02-01
- external identifiers
-
- scopus:85019569517
- ISSN
- 0277-786X
- 1996-756X
- ISBN
- 9781510606517
- DOI
- 10.1117/12.2260816
- language
- English
- LU publication?
- no
- additional info
- Publisher Copyright: © 2017 SPIE.
- id
- 453c0e03-0b83-4d81-9b5d-dab0fb100408
- date added to LUP
- 2022-04-19 14:50:14
- date last changed
- 2024-02-20 14:41:06
@inproceedings{453c0e03-0b83-4d81-9b5d-dab0fb100408, abstract = {{<p>We demonstrate that exceptional points exist in fully transparent, optically "effectively" biaxial, anisotropic micro-cavities, fabricated using an uniaxial cavity material with its axis inclined to the Bragg mirror growth direction. This is similar to the existence of singular (optic) axes in absorbing biaxial crystals, but the lack of time reversal symmetry is mediated by the mode broadening, i.e. the photon escape from the - in principle - open cavity system. As a consequence the eigenmodes are generally elliptically polarized, and completely circularly polarized eigenmodes are expected in certain directions. Via geometric and chemical composition design degrees of freedom, the spectral and angular position of these chiral modes can be rationally designed. Possible applications arise from the use of such directions for circularly polarized emission without the use of spin injection or internal or external magnetic fields. Also the coupling of such modes to excitons, adding oscillator strength to the system, seems a promising avenue of research.</p>}}, author = {{Grundmann, Marius and Richter, Steffen and Michalsky, Tom and Sturm, Chris and Zúñiga-Pérez, Jesús and Schmidt-Grund, Rüdiger}}, booktitle = {{Oxide-Based Materials and Devices VIII 2017}}, editor = {{Teherani, Ferechteh H. and Look, David C. and Rogers, David J. and Bozovic, Ivan}}, isbn = {{9781510606517}}, issn = {{0277-786X}}, keywords = {{Exceptional points; Micro-cavities; Polarization; ZnO}}, language = {{eng}}, publisher = {{SPIE}}, series = {{Proceedings of SPIE - The International Society for Optical Engineering}}, title = {{Exceptional points in anisotropic photonic structures : From non-Hermitian physics to possible device applications}}, url = {{http://dx.doi.org/10.1117/12.2260816}}, doi = {{10.1117/12.2260816}}, volume = {{10105}}, year = {{2017}}, }