Simon Gröblacher
Affiliations: | 2014- | Delft University of Technology, Delft, Zuid-Holland, Netherlands |
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"Simon Gröblacher"Bio:
http://groeblacherlab.tudelft.nl/files/2019/04/CV_SGroeblacher.pdf
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Parents
Sign in to add mentor| Markus Aspelmeyer | grad student | 2006-2011 | University of Vienna |
| Oskar J. Painter | post-doc | 2011-2014 |
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Publications
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| Yu Y, Oser D, Da Prato G, et al. (2023) Frequency Tunable, Cavity-Enhanced Single Erbium Quantum Emitter in the Telecom Band. Physical Review Letters. 131: 170801 |
| Lopez-Rodriguez B, van der Kolk R, Aggarwal S, et al. (2023) High-Quality Amorphous Silicon Carbide for Hybrid Photonic Integration Deposited at a Low Temperature. Acs Photonics. 10: 3748-3754 |
| Weaver MJ, Duivestein P, Bernasconi AC, et al. (2023) An integrated microwave-to-optics interface for scalable quantum computing. Nature Nanotechnology |
| Primo AG, Pinho PV, Benevides R, et al. (2023) Dissipative optomechanics in high-frequency nanomechanical resonators. Nature Communications. 14: 5793 |
| Guo J, Chang J, Yao X, et al. (2023) Active-feedback quantum control of an integrated low-frequency mechanical resonator. Nature Communications. 14: 4721 |
| Ji W, Chang J, Xu HX, et al. (2023) Recent advances in metasurface design and quantum optics applications with machine learning, physics-informed neural networks, and topology optimization methods. Light, Science & Applications. 12: 169 |
| Li Y, Gerritsma FA, Kurdi S, et al. (2023) A Fiber-Coupled Scanning Magnetometer with Nitrogen-Vacancy Spins in a Diamond Nanobeam. Acs Photonics. 10: 1859-1865 |
| de Jong MHJ, Ganesan A, Cupertino A, et al. (2023) Mechanical overtone frequency combs. Nature Communications. 14: 1458 |
| Zivari A, Fiaschi N, Burgwal R, et al. (2022) On-chip distribution of quantum information using traveling phonons. Science Advances. 8: eadd2811 |
| Stockill R, Forsch M, Hijazi F, et al. (2022) Ultra-low-noise microwave to optics conversion in gallium phosphide. Nature Communications. 13: 6583 |