Photonic chip-based low-noise microwave oscillator I Kudelin, W Groman, QX Ji, J Guo, ML Kelleher, D Lee, T Nakamura, ...
Nature 627 (8004), 534-539, 2024
87 2024 Chip-based laser with 1-hertz integrated linewidth J Guo, CA McLemore, C Xiang, D Lee, L Wu, W Jin, M Kelleher, N Jin, ...
Science advances 8 (43), eabp9006, 2022
75 2022 Micro-fabricated mirrors with finesse exceeding one million N Jin, CA McLemore, D Mason, JP Hendrie, Y Luo, ML Kelleher, P Kharel, ...
Optica 9 (9), 965-970, 2022
52 2022 Miniaturizing Ultrastable Electromagnetic Oscillators: Sub- CA McLemore, N Jin, ML Kelleher, JP Hendrie, D Mason, Y Luo, D Lee, ...
Physical Review Applied 18 (5), 054054, 2022
38 * 2022 Compact, portable, thermal-noise-limited optical cavity with low acceleration sensitivity ML Kelleher, CA McLemore, D Lee, J Davila-Rodriguez, SA Diddams, ...
Optics Express 31 (7), 11954-11965, 2023
35 2023 Low-noise microwave generation with an air-gap optical reference cavity Y Liu, D Lee, T Nakamura, N Jin, H Cheng, ML Kelleher, CA McLemore, ...
APL Photonics 9 (1), 2024
11 2024 Versatile micro-fabricated mirrors with finesse> 700,000 JP Hendrie, N Jin, CA McLemore, Y Luo, M Kelleher, D Mason, P Kharel, ...
CLEO: Science and Innovations, STh4J. 2, 2021
7 2021 Thermal-noise-limited, compact optical reference cavity operated without a vacuum enclosure Y Liu, CA McLemore, M Kelleher, D Lee, T Nakamura, N Jin, S Schima, ...
2023 IEEE Photonics Conference (IPC), 1-2, 2023
5 2023 Ultrastable vacuum-gap Fabry–Perot cavities operated in air Y Liu, N Jin, D Lee, C McLemore, T Nakamura, M Kelleher, H Cheng, ...
Optica 11 (9), 1205-1211, 2024
4 2024 Tunable opto-electronic synthesizer at 10 GHz with ultralow phase noise I Kudelin, P Shirmohammadi, W Groman, S Hanifi, M Kelleher, D Lee, ...
2023 Conference on Lasers and Electro-Optics (CLEO), 1-2, 2023
4 2023 Photonic millimeter-wave generation beyond the cavity thermal limit W Groman, I Kudelin, A Lind, D Lee, T Nakamura, Y Liu, ML Kelleher, ...
Optica 11 (11), 1583-1587, 2024
3 2024 High Finesse, Air-Gap Optical Reference Cavity for Low Noise Microwave Generation Y Liu, D Lee, N Jin, CA McLemore, Y Luo, M Kelleher, P Rakich, ...
CLEO: Science and Innovations, SM2K. 4, 2023
3 2023 Scalable fabrication of ultrahigh-finesse micromirrors with variable geometry N Jin, C McLemore, D Mason, J Hendrie, Y Luo, ML Kelleher, P Kharel, ...
arXiv preprint arXiv:2203.15931, 2022
3 2022 Centimeter-scale, rigidly held, thermal noise-limited optical cavity for mobile applications ML Kelleher, T Nakamura, J Davila-Rodriguez, CA McLemore, ...
CLEO: Science and Innovations, STh4A. 1, 2021
3 2021 Wafer-level fabrication of Fabry-Pérot resonators with finesse exceeding one million N Jin, Y Liu, CA McLemore, Y Luo, D Mason, P Kharel, SA Diddams, ...
CLEO: Science and Innovations, SW4L. 6, 2023
2 2023 An optoelectronic microwave synthesizer with frequency tunability and low phase noise I Kudelin, P Shirmohammadi, W Groman, S Hanifi, ML Kelleher, D Lee, ...
Nature Electronics 7 (12), 1170-1175, 2024
1 2024 Tunable X-band opto-electronic synthesizer with ultralow phase noise I Kudelin, P Shirmohammadi, W Groman, S Hanifi, ML Kelleher, D Lee, ...
arXiv preprint arXiv:2404.00136, 2024
1 2024 Enabling a multifunctional telecommunications fiber optic network: Ultrastable optical frequency transfer and attosecond timing in deployed multicore fiber N Hoghooghi, M Mazur, N Fontaine, Y Liu, D Lee, C McLemore, ...
arXiv preprint arXiv:2410.13801, 2024
2024 Wafer-scale fabrication of low-noise vacuum-gap Fabry-Pérot resonators with 10–13 stability N Jin, Y Liu, T Nakamura, H Cheng, CA McLemore, S Halladay, Y Luo, ...
Laser Science, JW4A. 73, 2024
2024 Fiber-coupled 2 mL vacuum-gap Fabry–Perot reference cavity for portable laser stabilization CA McLemore, N Jin, ML Kelleher, Y Luo, D Lee, Y Liu, T Nakamura, ...
Optics Letters 49 (16), 4737-4740, 2024
2024