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Cavity Optomechanics in a Levitated Helium Drop L. Childress,1, 2 M. P. Schmidt,3 A. D. Kashkanova,1 C. D. Brown,1 G. I. Harris,1 A. Aiello,3, 4 F. Marquardt,3, 4 and J. G. E. Harris1, 5, 6 2017 Characterization of Levitated Superfluid Helium Drops in High Vacuum C. D. Brown,1,2,3 Y. Wang,4 M. Namazi,4,6 G. I. Harris,4,5 M. T. Uysal,4 and J. G. E. Harris1,4,6 2021 Cryogenic Microwave Filter Cavity with a Tunability Greater than 5 GHz T.J. Clark,1, a) V. Vadakkumbatt,1 F. Souris,1 H. Ramp,1 and J.P. Davis1, b) 2018 Cryogenic and hermetically sealed packaging of photonic chips for optomechanics W. W. WASSERMAN1,2,*, R. A. HARRISON1,2, G. I. HARRIS1, A. 2022 Detecting continuous gravitational waves with superfluid 4He S. Singh,1, 2, ∗L.A. De Lorenzo,3 I. Pikovski,2, 4 and K.C. Schwab3 2016 Dynamic interaction between chiral currents and surface waves in topological superfluids: a pathway to detect Majorana fermions? S. Forstner1,2a, H. Choi3,4b, G.I. Harris1, A. Sawadsky1, W.P. Bowen1, and C.G. Baker1c 2024 HeLIOS: The Superfluid Helium Ultralight Dark Matter Detector M. Hirschel,1 V. Vadakkumbatt,1 N.P. Baker,1 F.M. Schweizer,1 J.C. Sankey,2 S. Singh,3 and J.P. Davis1 2023 Home Search Collections Journals About Contact us My IOPscience Detecting continuous gravitational waves with superfluid 4He This content has been downloaded from IOPscience. Please scroll down to see the full text. 2017 Home Search Collections Journals About Contact us My IOPscience Optomechanics in superfluid helium coupled to a fiber-based cavity This content has been downloaded from IOPscience. Please scroll down to see the full text. 2017 Home Search Collections Journals About Contact us My IOPscience Superfluid optomechanics: coupling of a superfluid to a superconducting condensate This content has been downloaded from IOPscience. Please scroll down to see the full text. 2014 J Low Temp Phys (2017) 186:233–240 DOI 10.1007/s10909-016-1674-x Ultra-High Q Acoustic Resonance in Superfluid 4He 2016 Laser cooling and control of excitations in superfluid helium G. I. Harris,1, ∗D. L. McAuslan,1, ∗E. Sheridan,1 Y. Sachkou,1 C. Baker,1 and W. P. Bowen1 2015 Laser cooling and control of excitations in superfluid helium G. I. Harris†, D. L. McAuslan†, E. Sheridan, Y. Sachkou, C. Baker and W. P. Bowen* 2016 Microphotonic Forces From Superfluid Flow D. L. McAuslan,1, * G. I. Harris,1, * C. Baker,1 Y. Sachkou,1 X. He,1 E. Sheridan,1 and W. P. Bowen1 2015 Microphotonic forces from superfluid flow - Supplementary Information 2016 Modelling of vorticity, sound and their interaction 2019 Nonlinear wave dynamics on a chip Matthew T. Reeves,1∗Walter W. Wasserman,1∗Raymond A. Harrison,12025 Igor Marinkovi´c,1 Nicole Luu,1 Andreas Sawadsky,1 Yasmine L. Apr Sfendla,1 Glen I. Harris,1 Warwick P. Bowen,1,2† Christopher G. Baker,1 2025 Optomechanical Dark Matter Direct Detection Christopher G. Baker,1, ∗Warwick P. Bowen,1, † Peter Cox,2, ‡ Matthew J. Dolan,2, § Maxim Goryachev,3, ¶ and Glen Harris1, ∗∗ 2023 PAPER • OPEN ACCESS Recent citations Modelling of vorticity, sound and their interaction in 2019 PAPER • OPEN ACCESS Related content - Cavity optomechanics: Manipulating Theoretical framework for thin film superfluid photons and phonons towards the single- 2016 PHYSICAL REVIEW A 90, 023812 (2014) Theory of optomechanical interactions in superfluid He G. S. Agarwal 2014 PHYSICAL REVIEW A 96, 063842 (2017) Cavity optomechanics in a levitated helium drop L. Childress,1,2 M. P. Schmidt,3 A. D. Kashkanova,1 C. D. Brown,1 G. I. Harris,1 A. Aiello,3,4 F. Marquardt,3,4 2017 PHYSICAL REVIEW APPLIED 15, 034090 (2021) Superfluid Optomechanics With Phononic Nanostructures S. Spence,1 Z.X. Koong ,2 S.A.R. Horsley,3 and X. Rojas 1,* 2021 PHYSICAL REVIEW APPLIED 22, L041005 (2024) Phononic crystals in superfluid thin-film helium Alexander Rolf Korsch ,1,2,3 Niccolò Fiaschi ,3 and Simon Gröblacher 3,* 2024 PHYSICAL REVIEW D 110, 043005 (2024) Optomechanical dark matter instrument for direct detection Christopher G. Baker ,1,* Warwick P. Bowen ,1,† Peter Cox ,2,‡ Matthew J. Dolan ,2,§ 2024 PHYSICAL REVIEW LETTERS 122, 153601 (2019) Editors' Suggestion Featured in Physics Quantum Optomechanics in a Liquid 2019 PHYSICAL REVIEW LETTERS 122, 165301 (2019) Featured in Physics Layering Transition in Superfluid Helium Adsorbed on a Carbon 2019 PHYSICAL REVIEW LETTERS 128, 183601 (2022) Measuring High-Order Phonon Correlations in an Optomechanical Resonator Y. S. S. Patil ,1,* J. Yu ,2 S. Frazier ,1 Y. Wang ,2 K. Johnson ,1 J. Fox ,1 J. Reichel ,3 and J. G. E. Harris 1,2,4,† 2022 PHYSICAL REVIEW LETTERS 130, 216001 (2023) Editors' Suggestion Superfluid Helium Drops Levitated in High Vacuum 2023 PHYSICAL REVIEW X 6, 021012 (2016) Microphotonic Forces from Superfluid Flow D. L. McAuslan, G. I. Harris, C. Baker,* Y. Sachkou, X. He, E. Sheridan, and W. P. Bowen 2016 Phonon coupling between a nanomechanical resonator and a quantum fluid King Yan Fong,1 Dafei Jin,2 Menno Poot,1, 3 Alexander Bruch,1 and Hong X. Tang1 2018 Prototype Superfluid Gravitational Wave Detector V. Vadakkumbatt,1 M. Hirschel,1 J. Manley,2 T.J. Clark,1 S. Singh,2 and J.P. Davis1 2021 Quantum optomechanics in a liquid A.B. Shkarin,1 A.D. Kashkanova,1 C. D. Brown,1 K. Ott,2 S. Garcia,2 J. Reichel,3 and J. G. E. Harris1,3 2019 Research Article Vol. 28, No. 15 / 20 July 2020 / Optics Express 22450 Proposal for a quantum traveling Brillouin GLEN I. HARRIS,* ANDREAS SAWADSKY, YASMINE L. SFENDLA, 2020 SC I EN C E A D VA N CE S | RESE A RCH ARTI CL E O PT ICS Copyright © 2023 The 2023 SUPERFLUIDITY namics of few-vortex clusters in a single shot and tracked over many minutesas they interact, dissipate energy, and annihilate. We find thatCoherent vortex dynamics in a strongly interacting 2019 SUPPLEMENTARY INFORMATION Laser cooling and control of excitations in superfluid helium I. SUPERFLUID HELIUM: TWO FLUID MODEL AND THIRD SOUND 2016 SUPPLEMENTARY INFORMATION Superfluid Brillouin optomechanics A.D. Kashkanova,1 A.B. Shkarin,1 C. D. Brown,1 N. E. Flowers-Jacobs,1 L. Childress,1,3 2016 SUPPLEMENTARY INFORMATIONLetters In the format provided by the authors and unedited. Strong optical coupling through superfluid 2020 Strong optical coupling through superfluid Brillouin lasing Xin He 1,2, Glen I. Harris 1,2, Christopher G. Baker 1,2*, Andreas Sawadsky1, Yasmine L. Sfendla1, 2020 Superfluid Brillouin Optomechanics A. D. Kashkanova,1 A. B. Shkarin,1 C. D. Brown,1 N. E. Flowers-Jacobs,1 L. Childress,1,2 S. W. Hoch,1 L. Hohmann,3 K. Ott,3 J. Reichel,3 and J. G. E. Harris1,4 2016 Superfluid Brillouin optomechanics A. D. Kashkanova1, A. B. Shkarin1, C. D. Brown1, N. E. Flowers-Jacobs1, L. Childress1,2, S. W. Hoch1, L. Hohmann3, K. Ott3, J. Reichel3 and J. G. E. Harris1,4* 2016 Supplemental Information for “Characterization of Levitated Superfluid Helium Drops in High Vacuum” December 18, 2021 2021 Supplemental Material: Measuring High-Order Phonon Correlations in an Optomechanical Resonator Y. S. S. Patil,1, ∗J. Yu,2 S. Frazier,1 Y. Wang,2 K. Johnson,1 J. Fox,1 J. Reichel,3 and J. G. E. Harris1, 2, 4, † 2022 Surface State Dissipation in Confined 3He-A Alexander J. Shook,∗Emil Varga, and John P. Davis† 2023 Synopsis: Quantum Optomechanics in April 15, 2019 Quantum optomechanical effects have been observed for the first time using a This is the accepted manuscript made available via CHORUS. The article has been published as: Prototype superfluid gravitational wave detector 2021 Three-Tone Coherent Microwave Electromechanical Measurement of a Superfluid Helmholtz Resonator S. Spence,1, a) E. Varga,2 C. A. Potts,3 and J. P. Davis1, b) 2023 Tuning a 3D Microwave Cavity via Superfluid Helium at MilliKelvin Temperatures F. Souris,1 H. Christiani,1 and J.P. Davis1, a) 2017 Ultra-high Q Acoustic Resonance in Superfluid 4He L. A. De Lorenzo1 and K. C. Schwab1 2016 science.sciencemag.org/content/366/6472/1480/suppl/DC1 Supplementary Materials for Coherent vortex dynamics in a strongly interacting superfluid 2019 www.nature.com/npjqi ARTICLE OPEN Extreme quantum nonlinearity in superfluid thin-film surface 2021