Showing results 1 to 8 of 8
1D photonic crystal direct bandgap GeSn-on-insulator laser Joo, Hyo-Jun; Kim, Youngmin; Burt, Daniel; Jung, Yongduck; Zhang, Lin; Chen, Melvina; Parluhutan, Samuel Jior; et al, APPLIED PHYSICS LETTERS, v.119, no.20, 2021-11 |
1D Photonic Crystal GeSn-on-Insulator Nanobeam Laser Joo, Hyo-Jun; Kim, Youngmin; Burt, Daniel; Jung, Yongduck; Zhang, Lin; Chen, Melvina; Parluhutan, Samuel Jior; et al, Conference on Silicon Photonics XVII Part of SPIE Photonics West OPTO Conference, SPIE-INT SOC OPTICAL ENGINEERING, 2022-01 |
All-Around HfO2 Stressor for Tensile Strain in GeSn-on-Insulator Nanobeam Lasers Joo, Hyo-Jun; Kim, Youngmin; Chen, Melvina; Burt, Daniel; Zhang, Lin; Son, Bongkwon; Luo, Manlin; et al, ADVANCED OPTICAL MATERIALS, v.11, no.24, 2023-12 |
Direct bandgap GeSn nanowires enabled with ultrahigh tension from harnessing intrinsic compressive strain Burt, Daniel; Joo, Hyo-Jun; Kim, Youngmin; Jung, Yongduck; Chen, Melvina; Luo, Manlin; Kang, Dong-Ho; et al, APPLIED PHYSICS LETTERS, v.120, no.20, 2022-05 |
Enhanced GeSn Microdisk Lasers Directly Released on Si Kim, Youngmin; Assali, Simone; Burt, Daniel; Jung, Yongduck; Joo, Hyo-Jun; Chen, Melvina; Ikonic, Zoran; et al, ADVANCED OPTICAL MATERIALS, v.10, no.2, 2022-01 |
GeSn Laser Technologies for Integrated Photonics Shi, Xuncheng; Burt, Daniel; Kim, Youngmin; Joo, Hyo-Jun; Tan, James; Chen, Melvina; Jung, Yongduck; et al, 2022 IEEE Photonics Society Summer Topicals Meeting Series, SUM 2022, Institute of Electrical and Electronics Engineers Inc., 2022-07 |
Short-wave infrared cavity resonances in a single GeSn nanowire Kim, Youngmin; Assali, Simone; Joo, Hyo-Jun; Koelling, Sebastian; Chen, Melvina; Luo, Lu; Shi, Xuncheng; et al, NATURE COMMUNICATIONS, v.14, no.1, 2023-07 |
Tensile strained direct bandgap GeSn microbridges enabled in GeSn-on-insulator substrates with residual tensile strain Burt, Daniel; Zhang, Lin; Jung, Yongduck; Joo, Hyo-jun; Kim, Youngmin; Chen, Melvina; Son, Bongkwon; et al, OPTICS LETTERS, v.48, no.3, pp.735 - 738, 2023-02 |
Discover