Purcell enhancement and spin spectroscopy of silicon vacancy centers in silicon carbide using an ultra-small mode-volume plasmonic cavity
![](https://fuchs.research.engineering.cornell.edu/files/2024/07/Nanopan.png)
J.-P. So, J. Luo, J. Choi, B. McCullian, and G. D. Fuchs, “Purcell enhancement and spin spectroscopy of silicon vacancy centers in silicon carbide using an ultra-small mode-volume plasmonic cavity,” arXiv:2407.05951 (2024).
In situ electric-field control of ferromagnetic resonance in the low-loss organic-based ferrimagnet V[TCNE]x~2,
Seth W. Kurfman, Andrew Franson, Piyusy Shah, Yuegang Shi, Hil Fung Harry Cheung, Katherine E. Nygren, Mitchell Swyt, Krysten S. Buchanan, Gregory D. Fuchs, Michael E. Flatté, Gopalan Srinivasan, Michael Page, Ezekiel Johnston-Halperin, “In situ electric-field control of ferromagnetic resonance in the low-loss organic-based ferrimagnet V[TCNE]x~2,” APL Materials 12, 051115, (2024). [arXiv:2308.03353]
Tuning exciton emission via ferroelectric polarization at a heterogeneous interface between a monolayer transition metal dichalcogenide and a perovskite oxide membrane
![](https://fuchs.research.engineering.cornell.edu/files/2024/04/BTO-3bae168b2f2ff2ed.png)
Jaehong Choi, Kevin J. Crust, Lizhong Li, Kihong Lee, Jialun Luo, Jae-Pil So, Kenji Watanabe, Takashi Taniguchi, Harold Y. Hwang, Kin Fai Mak, Jie Shan, and Gregory D. Fuchs, “Tuning exciton emission via ferroelectric polarization at a heterogeneous interface between a monolayer transition metal dichalcogenide and a perovskite oxide membrane,” Nano Letters in press, DOI: 10.1021/acs.nanolett.4c01853 (2024). [arXiv:2404.12490]
Coherent Acoustic Control of Defect Orbital States in the Strong-Driving Limit
![](https://fuchs.research.engineering.cornell.edu/files/2024/03/Orbital_Rabi-70c8ae4f146155ef-1024x377.png)
B. A. McCullian, V. Sharma, H. Y. Chen, J. C. Crossman, E. J. Mueller, and G. D. Fuchs, “Coherent Acoustic Control of Defect Orbital States in the Strong-Driving Limit,” arXiv:2403.10989 (2024).
Room temperature optically detected magnetic resonance of single spins in GaN
Jialun Luo, Yifei Geng, Farhan Rana, and Gregory D. Fuchs, “Room temperature optically detected magnetic resonance of single spins in GaN.” Nat. Maters. 23, 512 – 518 (2024) [arXiv:2306.12337]
Strong photon-magnon coupling using a lithographically defined organic ferrimagnet
, , , , , , , , , and , “Strong Photon-Magnon Coupling Using a Lithographically Defined Organic Ferrimagnet,” Adv. Sci. 11 2310032 (2024). [arXiv:2212.04423]
Stroboscopic X-ray Diffraction Microscopy of Dynamic Strain in Diamond Thin-film Bulk Acoustic Resonators for Quantum Control of Nitrogen Vacancy Centers
![](https://fuchs.research.engineering.cornell.edu/files/2023/12/FBAR-300x296.png)
Anthony D’Addario, Johnathan Kuan, Noah F. Opondo, Ozan Erturk, Tao Zhou, Sunil A. Bhave, Martin V. Holt, Gregory D. Fuchs, “Stroboscopic X-ray Diffraction Microscopy of Dynamic Strain in Diamond Thin-film Bulk Acoustic Resonators for Quantum Control of Nitrogen Vacancy Centers,” Phys. Rev. Applied in press (2024). [arXiv:2312.06862]
Optical Dipole Structure and Orientation of GaN Defect Single-Photon Emitters
Geng, D. Jena, G. D. Fuchs, W. R. Zipfel, and F. Rana, “Optical Dipole Structure and Orientation of GaN Defect Single-Photon Emitters,” ACS Photonics 10, 3723 (2023).
Nanoscale magnetic field sensing with spin-Hall nano-oscillator devices
Yanyou Xie, Hil Fung Harry Cheung, Gregory D. Fuchs, “Nanoscale magnetic field sensing with spin-Hall nano-oscillator devices,” arXiv:2303.02478 (2023).
Current-induced switching of thin film α-Fe2O3 devices imaged using a scanning single-spin microscope
Qiaochu Guo, Anthony D’Addario, Yang Cheng, Jeremy Kline, Isaiah Gray, Hil Fung Harry Cheung, Fengyuan Yang, Katja C. Nowack, and Gregory D. Fuchs, “Current-induced switching of thin film α-Fe2O3 devices imaged using a scanning single-spin microscope,” Phys. Rev. Materials 7, 064402 (2023). [arXiv:22100.6233]