Nathan Youngblood
Affiliations: | University of Oxford, Oxford, United Kingdom |
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"Nathan Youngblood"Parents
Sign in to add mentor| Mo Li | grad student | University of Minnesota - Minneapolis (Physics Tree) | |
| Harish Bhaskaran | post-doc | Oxford |
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Publications
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| Nobile NA, Erickson JR, Ríos C, et al. (2023) Time-Resolved Temperature Mapping Leveraging the Strong Thermo-Optic Effect in Phase-Change Materials. Acs Photonics. 10: 3576-3585 |
| Zhou W, Dong B, Farmakidis N, et al. (2023) In-memory photonic dot-product engine with electrically programmable weight banks. Nature Communications. 14: 2887 |
| Erickson JR, Shah V, Wan Q, et al. (2022) Designing fast and efficient electrically driven phase change photonics using foundry compatible waveguide-integrated microheaters. Optics Express. 30: 13673-13689 |
| Farmakidis N, Youngblood N, Lee JS, et al. (2022) Electronically Reconfigurable Photonic Switches Incorporating Plasmonic Structures and Phase Change Materials. Advanced Science (Weinheim, Baden-Wurttemberg, Germany). e2200383 |
| Farmakidis N, Swett JL, Youngblood N, et al. (2021) Exploiting rotational asymmetry for sub-50 nm mechanical nanocalligraphy. Microsystems & Nanoengineering. 7: 84 |
| Feldmann J, Youngblood N, Karpov M, et al. (2021) Parallel convolutional processing using an integrated photonic tensor core. Nature. 589: 52-58 |
| He Q, Youngblood N, Cheng Z, et al. (2020) Dynamically tunable transmissive color filters using ultra-thin phase change materials. Optics Express. 28: 39841-39849 |
| Li X, Youngblood N, Cheng Z, et al. (2020) Experimental investigation of silicon and silicon nitride platforms for phase-change photonic in-memory computing: erratum Optica. 7: 1804 |
| Li X, Youngblood N, Cheng Z, et al. (2020) Experimental investigation of silicon and silicon nitride platforms for phase-change photonic in-memory computing Optica. 7: 218 |
| Feldmann J, Youngblood N, Li X, et al. (2020) Integrated 256 Cell Photonic Phase-Change Memory With 512-Bit Capacity Ieee Journal of Selected Topics in Quantum Electronics. 26: 1-7 |