%0 Journal Article %1 Gagel_2022 %A Gagel, Philipp %A Harder, Tristan H. %A Betzold, Simon %A Egorov, Oleg A. %A Beierlein, Johannes %A Suchomel, Holger %A Emmerling, Monika %A Wolf, Adriana %A Peschel, Ulf %A Höfling, Sven %A Schneider, Christian %A Klembt, Sebastian %D 2022 %I American Chemical Society (ACS) %J ACS Photonics %K c %N 2 %P 405–412 %R 10.1021/acsphotonics.1c01605 %T Electro-optical switching of a topological polariton laser %U https://doi.org/10.1021%2Facsphotonics.1c01605 %V 9 %X Implementing concepts of topological protection in photonics has proved to be an exciting new degree of freedom for the realization of photonic devices. In this work, we are using arrays of coupled microresonators to realize exciton-polariton lasing from a topological domain boundary defect in an orbital Su–Schrieffer–Heeger geometry. By implementing adequate doping levels and the application of a bias voltage, we show that we can use the quantum confined Stark effect to control the condensation of polaritons in the topological mode. Specifically, we demonstrate that we can influence the polariton condensation behavior such that we can switch lasing from the topological defect to a trivial mode. We believe that successfully triggering the crossover from the topologically protected to the trivial regime of a nonlinear Bosonic condensate via eletro-optical methods paves the way toward ultrafast, topologically protected photonic switches, possibly down to the single photon level. Furthermore, we anticipate that a periodic electro-optical modulation can establish a new degree of freedom to tailor the optical properties of topologically protected polariton condensates.

@article{Gagel_2022, abstract = {Implementing concepts of topological protection in photonics has proved to be an exciting new degree of freedom for the realization of photonic devices. In this work, we are using arrays of coupled microresonators to realize exciton-polariton lasing from a topological domain boundary defect in an orbital Su–Schrieffer–Heeger geometry. By implementing adequate doping levels and the application of a bias voltage, we show that we can use the quantum confined Stark effect to control the condensation of polaritons in the topological mode. Specifically, we demonstrate that we can influence the polariton condensation behavior such that we can switch lasing from the topological defect to a trivial mode. We believe that successfully triggering the crossover from the topologically protected to the trivial regime of a nonlinear Bosonic condensate via eletro-optical methods paves the way toward ultrafast, topologically protected photonic switches, possibly down to the single photon level. Furthermore, we anticipate that a periodic electro-optical modulation can establish a new degree of freedom to tailor the optical properties of topologically protected polariton condensates.}, added-at = {2022-02-02T15:11:37.000+0100}, author = {Gagel, Philipp and Harder, Tristan H. and Betzold, Simon and Egorov, Oleg A. and Beierlein, Johannes and Suchomel, Holger and Emmerling, Monika and Wolf, Adriana and Peschel, Ulf and Höfling, Sven and Schneider, Christian and Klembt, Sebastian}, biburl = {https://www.bibsonomy.org/bibtex/2602d16d2a570af9a8855632791de87a9/ctqmat}, day = 21, description = {Electro-optical Switching of a Topological Polariton Laser | ACS Photonics}, doi = {10.1021/acsphotonics.1c01605}, interhash = {d60ffa8db91364ac803ae7d447688b3e}, intrahash = {602d16d2a570af9a8855632791de87a9}, journal = {ACS Photonics}, keywords = {c}, month = {1}, number = 2, pages = {405–412}, publisher = {American Chemical Society ({ACS})}, timestamp = {2023-10-17T08:59:57.000+0200}, title = {Electro-optical switching of a topological polariton laser}, url = {https://doi.org/10.1021%2Facsphotonics.1c01605}, volume = 9, year = 2022 }