Silicon surface lattice resonances and halide perovskite semiconductors for exciton-polaritons at room temperature
Năm xuất bản
2023-01-01Tác giả
Nguyen, Dinh Hai
Nguyen, Sy Khiem
Tran, Minh Quan
Le, Viet Hoang
Trinh, Quoc Trung
Bui, Son Tung
Bui, Xuan Khuyen
Vu, Dinh Lam
Nguyen, Hai-Son
Le-Van, Quynh
Metadata
Hiển thị đầy đủ biểu ghiTóm tắt
Owing to their high oscillator strength, binding energy, and low-cost fabrication, two-dimensional halide perovskites have recently gained attention as excellent materials for generating exciton-polaritons at room temperature. Unlike traditional materials used for polaritons, such as ZnO, GaAs, and GaN, halide perovskites exhibit great compatibility with matured CMOS technologies. However, no studies have reported perovskite-based polaritons on silicon platforms. Here, we numerically demonstrate the possibility of a polariton when a Si nanodisk array couples with a thin film of phenethylammonium lead iodide perovskite. An asymmetric lattice of thin Si nanodisks is used to generate surface lattice resonances from the coupling between the disk’s electrical resonator and the lattice’s diffracted waves. Polaritonic modes with high Rabi splitting values can be easily achieved for a large range of parameters. This Rabi splitting can be engineered by varying the ratio of electromagnetic energy confined within the Si disk and perovskite thin film. This study provides insight into nanophotonic structure design for CMOS-based optoelectronics, sensors, and polaritonic devices.
Định danh
https://vinspace.edu.vn/handle/VIN/369Collections
- Tran Minh Quan [8]