Short cavity InGaN-based laser diodes with cavity length below 300 μm H Zhang, CW Shih, D Martin, A Caut, JF Carlin, R Butté, N Grandjean
Semiconductor Science and Technology 34 (8), 085005, 2019
17 2019 Temperature dependent temporal coherence of metallic-nanoparticle-induced single-photon emitters in a WSe2 monolayer M von Helversen, L Greten, I Limame, CW Shih, P Schlaugat, ...
2D Materials 10 (4), 045034, 2023
13 2023 Low-threshold lasing of optically pumped micropillar lasers with Al0. 2Ga0. 8As/Al0. 9Ga0. 1As distributed Bragg reflectors CW Shih, I Limame, S Krüger, CC Palekar, A Koulas-Simos, D Brunner, ...
Applied Physics Letters 122 (15), 2023
13 2023 Machine learning enhanced in situ electron beam lithography of photonic nanostructures J Donges, M Schlischka, CW Shih, M Pengerla, I Limame, J Schall, ...
Nanoscale 14 (39), 14529-14536, 2022
10 2022 Broadened bandwidth amplified spontaneous emission from blue GaN-based short-cavity superluminescent light-emitting diodes H Zhang, CW Shih, D Martin, A Caut, JF Carlin, R Butté, N Grandjean
ECS Journal of Solid State Science and Technology 9 (1), 015019, 2019
7 2019 High-β lasing in photonic-defect semiconductor-dielectric hybrid microresonators with embedded InGaAs quantum dots K Gaur, CW Shih, I Limame, A Koulas-Simos, N Heermeier, CC Palekar, ...
Applied Physics Letters 124 (4), 2024
6 2024 Universal design method for bright quantum light sources based on circular Bragg grating cavities CW Shih, S Rodt, S Reitzenstein
Optics Express 31 (22), 35552-35564, 2023
6 2023 Epitaxial growth and characterization of multi-layer site-controlled InGaAs quantum dots based on the buried stressor method I Limame, CW Shih, A Koltchanov, F Heisinger, F Nippert, M Plattner, ...
Applied Physics Letters 124 (6), 2024
5 2024 High-quality single InGaAs/GaAs quantum dot growth on a silicon substrate for quantum photonic applications I Limame, P Ludewig, CW Shih, M Hohn, CC Palekar, W Stolz, ...
Optica Quantum 2 (2), 117-123, 2024
1 2024 Anomalous redshift in interlayer exciton emission with increasing twist angle in WSe2/MoSe2 heterostructures CC Palekar, J Hagel, B Rosa, S Brem, CW Shih, I Limame, ...
2D Materials 11 (2), 025034, 2024
1 2024 Self‐Aligned Photonic Defect Microcavity Lasers with Site‐Controlled Quantum Dots CW Shih, I Limame, CC Palekar, A Koulas‐Simos, A Kaganskiy, ...
Laser & Photonics Reviews, 2301242, 2024
1 2024 High-𝜷 Lasing in Self-Assembled Photonic-Defect Microcavities with a Transition Metal Dichalcogenide Monolayer as Active Material A Koulas-Simos, CC Palekar, K Gaur, I Limame, CW Shih, BLT Rosa, ...
1 2024 Twist Angle Dependence of Exciton Resonances in WSe CC Palekar, J Hagel, B Rosa, S Brem, CW Shih, I Limame, ...
arXiv preprint arXiv:2309.16822, 2023
1 2023 Diameter-dependent whispering gallery mode lasing effects in quantum dot micropillar cavities I Limame, CW Shih, A Koulas-Simos, J Pietsch, LJ Roche, M Plattner, ...
Optics Express 32 (18), 31819-31829, 2024
2024 Enhancement of Interlayer Exciton Emission in a TMDC Heterostructure via a Multi‐Resonant Chirped Microresonator Upto Room Temperature CC Palekar, B Rosa, N Heermeier, CW Shih, I Limame, A Koulas‐Simos, ...
Advanced Materials 36 (35), 2402624, 2024
2024 Laser-induced spectral tuning of single quantum dots embedded into microposts cladded with HfO2 P Mudi, CW Shih, M Holzer, M Elhajhasan, I Limame, I Hüllen, ...
Applied Physics Letters 125 (5), 2024
2024 Quantum light sources based on semiconductor quantum dots and the collective effects CW Shih
2024 Numerical Investigation of a Coupled Micropillar‐Waveguide System for Integrated Quantum Photonic Circuits LJ Roche, F Betz, Y Yang, I Limame, CW Shih, S Burger, S Reitzenstein
Advanced Quantum Technologies, 2400195, 2024
2024 Self-aligned photonic defect microcavities with site-controlled quantum dots CW Shih, I Limame, CC Palekar, A Koulas-Simos, A Kaganskiy, ...
arXiv preprint arXiv:2311.14852, 2023
2023 High-quality single InGaAs/GaAs quantum dot growth on a CMOS-compatible silicon substrate for quantum photonic applications I Limame, P Ludewig, CW Shih, M Hohn, CC Palekar, W Stolz, ...
arXiv preprint arXiv:2311.14849, 2023
2023 
Stephan ReitzensteinTechnische Universität BerlinEmail verificata su physik.tu-berlin.de
