# Publications Sort & Filters close ## Filters Year of Publication expand\_more 2026 (4) 2025 (25) 2024 (25) 2023 (10) 2022 (25) 2021 (10) 2020 (20) 2019 (16) 2018 (17) 2017 (20) 2016 (13) 2015 (10) 2014 (16) 2013 (18) 2012 (15) 2011 (17) 2010 (5) 2009 (10) 2008 (5) 2007 (3) 2006 (5) 2005 (3) 2004 (3) 2003 (5) 2002 (6) 2001 (5) 2000 (3) Search Within Results Search Within Results search ## 317 results Show filters filter\_alt Sort by Year of PublicationAlphabetical A-Z sort ## 317 results Download 317 citations download- [BibTeX](/node/1888651/export?format=bibtex) - [EndNote X3 XML](/node/1888651/export?format=endnote8) - [EndNote 7 XML](/node/1888651/export?format=endnote7) - [Endnote tagged](/node/1888651/export?format=tagged) - [Marc](/node/1888651/export?format=marc) - [PubMedId](/node/1888651/export?format=pubmed_id) - [RIS](/node/1888651/export?format=ris) ### Submitted Sophie Weiyi Ding, Brandon Grinkemeyer, Eirini Mandopoulou, Rui Jiang, Alexander S. Zibrov, Guanhao Huang, Kiyoul Yang, Mikhail Lukin, and Marko Lončar. 2025. “[High Finesse Buckled Microcavities](/publication/high-finesse-buckled-microcavities)”. ArXiv, 2509, 23576. doi:https://doi.org/10.48550/arXiv.2509.23576 Sophie Weiyi Ding, Brandon Grinkemeyer, Eirini Mandopoulou, Rui Jiang, Alexander S. Zibrov, Guanhao Huang, Kiyoul Yang, Mikhail Lukin, and Marko Lončar. 2025. “[High Finesse Buckled Microcavities](/publication/high-finesse-buckled-microcavities)”. ArXiv, 2509, 23576. doi:https://doi.org/10.48550/arXiv.2509.23576 - add\_circle\_outline do\_not\_disturb\_on Abstract - [ picture\_as\_pdfHigh Finesse Buckled Micr...](/sites/g/files/omnuum6446/files/2025-10/High%20Finesse%20Buckled%20Microcavities.pdf) Optical cavities are widely used in modern science and technology to enable a wide range of both quantum and classical applications. Recently, the growing demand for miniaturization and high performance has fueled the exploration of new fabrication... - [ picture\_as\_pdfHigh Finesse Buckled Micr...](/sites/g/files/omnuum6446/files/2025-10/High%20Finesse%20Buckled%20Microcavities.pdf) Guanhao Huang, Chang Jin, Sophie Weiyi Ding, and Marko Lončar. 2025. “[Ultralow-Loss Diamond Nanomechanics Enabled by Van Der Waals Self-Assembly](/publication/ultralow-loss-diamond-nanomechanics-enabled-van-der-waals-self-assembly)”. ArXiv, 2507, 01217. doi:https://doi.org/10.48550/arXiv.2507.01217 Guanhao Huang, Chang Jin, Sophie Weiyi Ding, and Marko Lončar. 2025. “[Ultralow-Loss Diamond Nanomechanics Enabled by Van Der Waals Self-Assembly](/publication/ultralow-loss-diamond-nanomechanics-enabled-van-der-waals-self-assembly)”. ArXiv, 2507, 01217. doi:https://doi.org/10.48550/arXiv.2507.01217 - add\_circle\_outline do\_not\_disturb\_on Abstract - [ picture\_as\_pdfUltralow-loss diamond nan...](/sites/g/files/omnuum6446/files/2025-10/Ultralow-loss%20diamond%20nanomechanics%20enabled%20by%20van%20der%20Waals%20self-assembly.pdf) Nanomechanical systems are critical platforms for precision measurement, sensing, macroscopic quantum physics, and emerging quantum-information technologies. In these applications, high mechanical quality factors, often achieved using dissipation dilution... - [ picture\_as\_pdfUltralow-loss diamond nan...](/sites/g/files/omnuum6446/files/2025-10/Ultralow-loss%20diamond%20nanomechanics%20enabled%20by%20van%20der%20Waals%20self-assembly.pdf) Caique C. Rodrigues, Nick J. Schilder, Roberto O. Zurita, Letícia S. Magalhães, Amirhassan Shams-Ansari, Thiago P. M. Alegre, Marko Lončar, and Gustavo S. Wiederhecker. “[On-Chip Backward Stimulated Brillouin Scattering in Lithium Niobate Waveguides ](/publications/chip-backward-stimulated-brillouin-scattering-lithium-niobate-waveguides)”. Https://Arxiv.org/Abs/2311.18135 Caique C. Rodrigues, Nick J. Schilder, Roberto O. Zurita, Letícia S. Magalhães, Amirhassan Shams-Ansari, Thiago P. M. Alegre, Marko Lončar, and Gustavo S. Wiederhecker. “[On-Chip Backward Stimulated Brillouin Scattering in Lithium Niobate Waveguides ](/publications/chip-backward-stimulated-brillouin-scattering-lithium-niobate-waveguides)”. Https://Arxiv.org/Abs/2311.18135 - add\_circle\_outline do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version](https://arxiv.org/abs/2311.18135) - [ picture\_as\_pdf\[PDF\]](/sites/g/files/omnuum6446/files/nano-optics/files/2311.18135.pdf) We report on the first experimental demonstration of backward stimulated Brillouin scattering (SBS) in Lithium Niobate on Insulator (LNOI) waveguides. Performing polarization-dependent pump-probe experiments, we successfully quantified both intramodal and... - [ descriptionPublisher's Version](https://arxiv.org/abs/2311.18135) - [ picture\_as\_pdf\[PDF\]](/sites/g/files/omnuum6446/files/nano-optics/files/2311.18135.pdf) Eliza Cornell, Zhujing Xu, Zhaoyou Wang, Hana K. Warner, Eliana Mann, Michael Haas, Smarak Maity, Graham Joe, Liang Jiang, Peter Rabl, Benjamin Pingault, and Marko Lončar. “[All-Mechanical Coherence Protection and Fast Control of a Spin Qubit](/publication/all-mechanical-coherence-protection-and-fast-control-spin-qubit)”. ArXiv:2508.13356 Eliza Cornell, Zhujing Xu, Zhaoyou Wang, Hana K. Warner, Eliana Mann, Michael Haas, Smarak Maity, Graham Joe, Liang Jiang, Peter Rabl, Benjamin Pingault, and Marko Lončar. “[All-Mechanical Coherence Protection and Fast Control of a Spin Qubit](/publication/all-mechanical-coherence-protection-and-fast-control-spin-qubit)”. ArXiv:2508.13356 - add\_circle\_outline do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version](https://arxiv.org/abs/2508.13356) - [ picture\_as\_pdf2508.pdf](/sites/g/files/omnuum6446/files/2025-09/2508.pdf) In a phononic quantum network, quantum information is stored and processed within stationary nodes defined by solid-state spins, and the information is routed between nodes by phonons. The phonon holds distinct advantages over its electromagnetic... - [ descriptionPublisher's Version](https://arxiv.org/abs/2508.13356) - [ picture\_as\_pdf2508.pdf](/sites/g/files/omnuum6446/files/2025-09/2508.pdf) Xudong Li, Yaowen Hu, Tong Ge, Andrea Cordaro, Yunxiang Song, Xinrui Zhu, Shengyuan Lu, Keith Powell, Letícia Magalhães, Urban Senica, Neil Sinclair, and Marko Lončar. “[Spectral-Temporal Processing Using Integrated Recursive Electro-Optic Circuit](/publication/spectral-temporal-processing-using-integrated-recursive-electro-optic-circuit-1)”. Arxiv: 2509.25102 Xudong Li, Yaowen Hu, Tong Ge, Andrea Cordaro, Yunxiang Song, Xinrui Zhu, Shengyuan Lu, Keith Powell, Letícia Magalhães, Urban Senica, Neil Sinclair, and Marko Lončar. “[Spectral-Temporal Processing Using Integrated Recursive Electro-Optic Circuit](/publication/spectral-temporal-processing-using-integrated-recursive-electro-optic-circuit-1)”. Arxiv: 2509.25102 - add\_circle\_outline do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version](https://arxiv.org/abs/2509.25102) Advances in integrated photonics have enabled unprecedented level of control of light, powering a wide range of photonic technologies from communications and computing to precision metrology and quantum information. However, the conventional on-chip... - [ descriptionPublisher's Version](https://arxiv.org/abs/2509.25102) Yunxiang Song, Tianqi Lei, Yanyun Xue, Andrea Cordaro, Michael Haas, Guanhao Huang, Xudong Li, Shengyuan Lu, Leticia Magalhaes, Jiayu Yang, Matthew Yeh, Xinrui Zhu, Neil Sinclair, Qihuang Gong, Yaowen Hu, and Marko Loncar. 2025. “[Universal Dynamics and Microwave Control of Programmable Cavity Electro-Optic Frequency Combs](/publication/universal-dynamics-and-microwave-control-programmable-cavity-electro-optic-frequency)”. ArXiv:2507.21835 Yunxiang Song, Tianqi Lei, Yanyun Xue, Andrea Cordaro, Michael Haas, Guanhao Huang, Xudong Li, Shengyuan Lu, Leticia Magalhaes, Jiayu Yang, Matthew Yeh, Xinrui Zhu, Neil Sinclair, Qihuang Gong, Yaowen Hu, and Marko Loncar. 2025. “[Universal Dynamics and Microwave Control of Programmable Cavity Electro-Optic Frequency Combs](/publication/universal-dynamics-and-microwave-control-programmable-cavity-electro-optic-frequency)”. ArXiv:2507.21835 - add\_circle\_outline do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version](https://arxiv.org/abs/2507.21835) Electro-optic (EO) frequency combs are foundational for metrology and spectroscopy. Specifically, microresonator-based cavity EO combs are distinguished by efficient sideband generation, precisely controlled by microwave signals, enabling high-performance... - [ descriptionPublisher's Version](https://arxiv.org/abs/2507.21835) A. Tomasino, A Shams-Ansari, M. Lončar, and I.-C. Benea-Chelmus. 2024. “[Large-Area Photonic Circuits for Terahertz Detection and Beam Profiling](/publication/large-area-photonic-circuits-terahertz-detection-and-beam-profiling)”. ArXiv:2410.20407 A. Tomasino, A Shams-Ansari, M. Lončar, and I.-C. Benea-Chelmus. 2024. “[Large-Area Photonic Circuits for Terahertz Detection and Beam Profiling](/publication/large-area-photonic-circuits-terahertz-detection-and-beam-profiling)”. ArXiv:2410.20407 - add\_circle\_outline do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version]() - [ picture\_as\_pdf2410.20407v1.pdf](/sites/g/files/omnuum6446/files/2025-10/2410.20407v1.pdf) Deployment of terahertz communication and spectroscopy systems relies on the availability of low-noise and fast detectors, with plug-and-play capabilities. However, most currently available technologies are stand-alone, discrete components, either slow or... - [ descriptionPublisher's Version]() - [ picture\_as\_pdf2410.20407v1.pdf](/sites/g/files/omnuum6446/files/2025-10/2410.20407v1.pdf) P.-J. Stas, Y.-C. Wei, M. Sirotin, Y. Q. Huan, U. Yazlar, Abdo Arias, E. Knyazev, G. Baranes, B. Machielse, S. Grandi, D. Riedel, J. Borregaard, H. Park, M. Lončar, A. Suleymanzade, and M. D. Lukin. 2025. “[Entanglement Assisted Non-Local Optical Interferometry in a Quantum Network](/publication/entanglement-assisted-non-local-optical-interferometry-quantum-network)”. ArXiv:2509.09464 P.-J. Stas, Y.-C. Wei, M. Sirotin, Y. Q. Huan, U. Yazlar, Abdo Arias, E. Knyazev, G. Baranes, B. Machielse, S. Grandi, D. Riedel, J. Borregaard, H. Park, M. Lončar, A. Suleymanzade, and M. D. Lukin. 2025. “[Entanglement Assisted Non-Local Optical Interferometry in a Quantum Network](/publication/entanglement-assisted-non-local-optical-interferometry-quantum-network)”. ArXiv:2509.09464 - add\_circle\_outline do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version](https://arxiv.org/abs/2509.09464) - [ picture\_as\_pdf2509.09464v2.pdf](/sites/g/files/omnuum6446/files/2025-10/2509.09464v2.pdf) The sensitivity of non-local optical measurements at low light intensities, such as those involved in long baseline telescope arrays, can be improved by using remote entanglement. Here, we demonstrate the use of entangled quantum memories in a quantum... - [ descriptionPublisher's Version](https://arxiv.org/abs/2509.09464) - [ picture\_as\_pdf2509.09464v2.pdf](/sites/g/files/omnuum6446/files/2025-10/2509.09464v2.pdf) Xinrui Zhu, Hana K. Warner, Yunxiang Song, Donald Witt, and Marko Lončar. 2026. “[Understanding Intrinsic Loss in Thin-Film Lithium Niobate Ring Resonators via Adiabatic Coupling](/publication/understanding-intrinsic-loss-thin-film-lithium-niobate-ring-resonators-adiabatic)”. ArXiv:2604.01922 Xinrui Zhu, Hana K. Warner, Yunxiang Song, Donald Witt, and Marko Lončar. 2026. “[Understanding Intrinsic Loss in Thin-Film Lithium Niobate Ring Resonators via Adiabatic Coupling](/publication/understanding-intrinsic-loss-thin-film-lithium-niobate-ring-resonators-adiabatic)”. ArXiv:2604.01922 - add\_circle\_outline do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version](https://arxiv.org/abs/2604.01922) - [ picture\_as\_pdf2604.01922.pdf](/sites/g/files/omnuum6446/files/2026-04/2604.01922.pdf) Thin-film lithium niobate (TFLN) has emerged as a versatile integrated photonics platform, combining strong electro-optic and nonlinear effects. Among TFLN devices, ring resonators play a central role in filtering, modulation, and nonlinear optical... - [ descriptionPublisher's Version](https://arxiv.org/abs/2604.01922) - [ picture\_as\_pdf2604.01922.pdf](/sites/g/files/omnuum6446/files/2026-04/2604.01922.pdf) ### 2026 Joonsup Shim, Seonghun Kim, Shengyuan Lu, Jiayu Yang, Seongjin Jeon, SangHyeon Kim, Marko Lončar, and Young-Ik Sohn. 2026. “[Generalized Model of Anisotropic Thermo-Optic Response on Thin-Film Lithium Niobate Platform](/publication/generalized-model-anisotropic-thermo-optic-response-thin-film-lithium-niobate-0)”. ACS Photonics, Pp. 6c00117. doi:10.1021/acsphotonics.6c00117 Joonsup Shim, Seonghun Kim, Shengyuan Lu, Jiayu Yang, Seongjin Jeon, SangHyeon Kim, Marko Lončar, and Young-Ik Sohn. 2026. “[Generalized Model of Anisotropic Thermo-Optic Response on Thin-Film Lithium Niobate Platform](/publication/generalized-model-anisotropic-thermo-optic-response-thin-film-lithium-niobate-0)”. ACS Photonics, Pp. 6c00117. doi:10.1021/acsphotonics.6c00117 - add\_circle\_outline do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version](https://doi.org/10.1021/acsphotonics.6c00117) - [ picture\_as\_pdfgeneralized-model-of-anis...](/sites/g/files/omnuum6446/files/2026-04/generalized-model-of-anisotropic-thermo-optic-response-on-thin-film-lithium-niobate-platform.pdf) - [ picture\_as\_pdfph6c00117\_si\_001.pdf](/sites/g/files/omnuum6446/files/2026-04/ph6c00117_si_001.pdf) Thermo-optic (TO) control is crucial for thin-film lithium niobate (TFLN) photonic integrated circuits (PICs), offering a simple and practical method for low-frequency and DC tuning while remaining compatible with high-frequency electro-optic (EO)... - [ descriptionPublisher's Version](https://doi.org/10.1021/acsphotonics.6c00117) - [ picture\_as\_pdfgeneralized-model-of-anis...](/sites/g/files/omnuum6446/files/2026-04/generalized-model-of-anisotropic-thermo-optic-response-on-thin-film-lithium-niobate-platform.pdf) - [ picture\_as\_pdfph6c00117\_si\_001.pdf](/sites/g/files/omnuum6446/files/2026-04/ph6c00117_si_001.pdf) Yunxiang Song, Zongda Li, Xinrui Zhu, Norman Lippok, Miro Erkintalo, and Marko Loncar. 2026. “[High-Efficiency and Broadband Kerr Comb Generation in Normal-Dispersion X-Cut Lithium Niobate Microresonators](https://www.science.org/doi/10.1126/sciadv.aeb5758)”. Science Advances, 12, 7, Pp. 9 Yunxiang Song, Zongda Li, Xinrui Zhu, Norman Lippok, Miro Erkintalo, and Marko Loncar. 2026. “[High-Efficiency and Broadband Kerr Comb Generation in Normal-Dispersion X-Cut Lithium Niobate Microresonators](https://www.science.org/doi/10.1126/sciadv.aeb5758)”. Science Advances, 12, 7, Pp. 9 - add\_circle\_outline do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version](https://arxiv.org/abs/2507.21272) The ability to generate efficient and coherent frequency combs using photonic integrated circuits offers tremendous potential for a range of applications. In particular, "microcombs" based on chip-integrated resonators are poised to revolutionize optical... - [ descriptionPublisher's Version](https://arxiv.org/abs/2507.21272) Zhujing Xu, Sophie Weiyi Ding, Eliza Cornell, Salma Mohideen, Matthew Yeh, Kazuhiro Kuruma, Letícia Magalhães, Amirhassan Shams-Ansari, Benjamin Pingault, and Marko Lončar. 2026. “[Thin-Film Lithium Niobate on Diamond As a Platform for Efficient Spin-Phonon Coupling](/publication/thin-film-lithium-niobate-diamond-platform-efficient-spin-phonon-coupling)”. PHYSICAL REVIEW APPLIED, 25. doi:10.1103/cpgp-9jpx Zhujing Xu, Sophie Weiyi Ding, Eliza Cornell, Salma Mohideen, Matthew Yeh, Kazuhiro Kuruma, Letícia Magalhães, Amirhassan Shams-Ansari, Benjamin Pingault, and Marko Lončar. 2026. “[Thin-Film Lithium Niobate on Diamond As a Platform for Efficient Spin-Phonon Coupling](/publication/thin-film-lithium-niobate-diamond-platform-efficient-spin-phonon-coupling)”. PHYSICAL REVIEW APPLIED, 25. doi:10.1103/cpgp-9jpx - add\_circle\_outline do\_not\_disturb\_on Abstract - [ descriptionPublisher's Version](https://journals.aps.org/prapplied/abstract/10.1103/cpgp-9jpx) - [ picture\_as\_pdfcpgp-9jpx.pdf](/sites/g/files/omnuum6446/files/2026-01/cpgp-9jpx.pdf) Negatively charged silicon vacancy (SiV⁻) center in diamonds are leading candidates for solid-state quantum memories that can be controlled using electromagnetic or acoustic waves. The latter are particularly promising due to strong strain response of SiV... - [ descriptionPublisher's Version](https://journals.aps.org/prapplied/abstract/10.1103/cpgp-9jpx) - [ picture\_as\_pdfcpgp-9jpx.pdf](/sites/g/files/omnuum6446/files/2026-01/cpgp-9jpx.pdf) - Previous page chevron\_left - [1](?page=0 "Current page") - [2](?page=1 "Go to page 2") - [3](?page=2 "Go to page 3") - [ Last page 27 ](?page=26 "Go to last page") - [ Next page chevron\_right ](?page=1 "Go to next page")