Jeffrey Holzgrafe
Jeffrey Holzgrafe
HyperLight Corporation
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Integrated photonics on thin-film lithium niobate
D Zhu, L Shao, M Yu, R Cheng, B Desiatov, CJ Xin, Y Hu, J Holzgrafe, ...
Advances in Optics and Photonics 13 (2), 242-352, 2021
Strain engineering of the silicon-vacancy center in diamond
S Meesala, YI Sohn, B Pingault, L Shao, HA Atikian, J Holzgrafe, ...
Physical Review B 97 (20), 205444, 2018
Controlling the coherence of a diamond spin qubit through its strain environment
YI Sohn, S Meesala, B Pingault, HA Atikian, J Holzgrafe, M Gündoğan, ...
Nature communications 9 (1), 2012, 2018
Quantum interference of electromechanically stabilized emitters in nanophotonic devices
B Machielse, S Bogdanovic, S Meesala, S Gauthier, MJ Burek, G Joe, ...
Physical Review X 9 (3), 031022, 2019
On-chip electro-optic frequency shifters and beam splitters
Y Hu, M Yu, D Zhu, N Sinclair, A Shams-Ansari, L Shao, J Holzgrafe, ...
Nature 599 (7886), 587-593, 2021
Cavity electro-optics in thin-film lithium niobate for efficient microwave-to-optical transduction
J Holzgrafe, N Sinclair, D Zhu, A Shams-Ansari, M Colangelo, Y Hu, ...
Optica 7 (12), 1714-1720, 2020
Solution assembled single-walled carbon nanotube foams: superior performance in supercapacitors, lithium-ion, and lithium–air batteries
R Carter, L Oakes, AP Cohn, J Holzgrafe, HF Zarick, S Chatterjee, ...
The Journal of Physical Chemistry C 118 (35), 20137-20151, 2014
Optically heralded entanglement of superconducting systems in quantum networks
S Krastanov, H Raniwala, J Holzgrafe, K Jacobs, M Lončar, MJ Reagor, ...
Physical Review Letters 127 (4), 040503, 2021
Reduced material loss in thin-film lithium niobate waveguides
A Shams-Ansari, G Huang, L He, Z Li, J Holzgrafe, M Jankowski, ...
Apl Photonics 7 (8), 2022
Nanoscale nmr spectroscopy using nanodiamond quantum sensors
J Holzgrafe, Q Gu, J Beitner, DM Kara, HS Knowles, M Atatüre
Physical Review Applied 13 (4), 044004, 2020
Error corrected spin-state readout in a nanodiamond
J Holzgrafe, J Beitner, D Kara, HS Knowles, M Atatüre
Npj Quantum Information 5 (1), 13, 2019
10 nm gap bowtie plasmonic apertures fabricated by modified lift-off process
I Huang, J Holzgrafe, RA Jensen, JT Choy, MG Bawendi, M Lončar
Applied Physics Letters 109 (13), 2016
Reconfigurable electro-optic frequency shifter
Y Hu, M Yu, D Zhu, N Sinclair, A Shams-Ansari, L Shao, J Holzgrafe, ...
arXiv preprint arXiv:2005.09621, 2020
Superconducting nanowire single-photon detector on thin-film lithium niobate photonic waveguide
M Colangelo, B Desiatov, D Zhu, J Holzgrafe, O Medeiros, M Loncar, ...
CLEO: Science and Innovations, SM4O. 4, 2020
Toward efficient microwave-optical transduction using cavity electro-optics in thin-film lithium niobate
J Holzgrafe, N Sinclair, D Zhu, A Shams-Ansari, M Colangelo, Y Hu, ...
CLEO: QELS_Fundamental Science, FTh4D. 5, 2020
Transverse stability problems of small autonomous sailing vessels
J Holzgrafe
Robotic Sailing 2013: Proceedings of the 6th International Robotic Sailing …, 2013
Cavity electro-optics in thin-film lithium niobate
JC Holzgrafe
Harvard University, 2022
Coherent control of a superconducting qubit using light
HK Warner, J Holzgrafe, B Yankelevich, D Barton, S Poletto, CJ Xin, ...
arXiv preprint arXiv:2310.16155, 2023
Photonic Quantum Networking for Large Superconducting Qubit Modules
MJ Reagor, JC Holzgrafe, M Loncar
US Patent App. 17/686,906, 2022
Mitigating anomalous sub-megahertz frequency response of electro-optic phase modulators in X-cut lithium niobate on insulator
E Puma, R Cheng, J Holzgrafe, A Shams-Ansari, R Shankar, M Loncar
CLEO: Science and Innovations, SF2O. 1, 2022
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