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Dr

William Campbell

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Overview

Availability

Dr William Campbell is:
Available for supervision

Works

Search Professor William Campbell’s works on UQ eSpace

9 works between 2021 and 2025

1 - 9 of 9 works

2025

Journal Article

Experimental Limits on Planetary Mass Primordial Black Hole Mergers

Campbell, William M., Mariani, Leonardo, Tobar, Michael E. and Goryachev, Maxim (2025). Experimental Limits on Planetary Mass Primordial Black Hole Mergers. Physical Review Letters, 135 (25) 251402, 25. doi: 10.1103/c1kj-rj3c

Experimental Limits on Planetary Mass Primordial Black Hole Mergers

2025

Journal Article

Cryogenic microwave whispering gallery mode spectroscopy of paramagnetic impurities in high-purity crystalline LiF

Samuels, Steven, Campbell, William, Tobar, Michael E. and Goryachev, Maxim (2025). Cryogenic microwave whispering gallery mode spectroscopy of paramagnetic impurities in high-purity crystalline LiF. Journal of Applied Physics, 138 (6) 064402, 6. doi: 10.1063/5.0283131

Cryogenic microwave whispering gallery mode spectroscopy of paramagnetic impurities in high-purity crystalline LiF

2025

Journal Article

Low-temperature properties of low-loss macroscopic lithium niobate bulk acoustic wave resonators

Campbell, William M., Parashar, Sonali, Mariani, Leonardo, Tobar, Michael E. and Goryachev, Maxim (2025). Low-temperature properties of low-loss macroscopic lithium niobate bulk acoustic wave resonators. Physical Review B, 111 (21) 214106, 21. doi: 10.1103/PhysRevB.111.214106

Low-temperature properties of low-loss macroscopic lithium niobate bulk acoustic wave resonators

2024

Journal Article

Upconversion of phonon modes into microwave photons in a lithium niobate bulk acoustic wave resonator coupled to a microwave cavity

Parashar, S., Campbell, W. M., Bourhill, J., Ivanov, E., Goryachev, M. and Tobar, M. E. (2024). Upconversion of phonon modes into microwave photons in a lithium niobate bulk acoustic wave resonator coupled to a microwave cavity. APL Photonics, 9 (11) 111304, 11. doi: 10.1063/5.0233800

Upconversion of phonon modes into microwave photons in a lithium niobate bulk acoustic wave resonator coupled to a microwave cavity

2023

Journal Article

Improved constraints on minimum length models with a macroscopic low loss phonon cavity

Campbell, William M., Tobar, Michael E., Goryachev, Maxim and Galliou, Serge (2023). Improved constraints on minimum length models with a macroscopic low loss phonon cavity. Physical Review D, 108 (10) 102006, 10. doi: 10.1103/PhysRevD.108.102006

Improved constraints on minimum length models with a macroscopic low loss phonon cavity

2023

Journal Article

Electro-mechanical tuning of high-Q bulk acoustic phonon modes at cryogenic temperatures

Campbell, William, Galliou, Serge, Tobar, Michael E. and Goryachev, Maxim (2023). Electro-mechanical tuning of high-Q bulk acoustic phonon modes at cryogenic temperatures. Applied Physics Letters, 122 (3) 032202, 3. doi: 10.1063/5.0131361

Electro-mechanical tuning of high-Q bulk acoustic phonon modes at cryogenic temperatures

2021

Journal Article

Rare Events Detected with a Bulk Acoustic Wave High Frequency Gravitational Wave Antenna

Goryachev, Maxim, Campbell, William M., Heng, Ik Siong, Galliou, Serge, Ivanov, Eugene N. and Tobar, Michael E. (2021). Rare Events Detected with a Bulk Acoustic Wave High Frequency Gravitational Wave Antenna. Physical Review Letters, 127 (7) 071102, 7. doi: 10.1103/PhysRevLett.127.071102

Rare Events Detected with a Bulk Acoustic Wave High Frequency Gravitational Wave Antenna

2021

Journal Article

Searching for Scalar Dark Matter via Coupling to Fundamental Constants with Photonic, Atomic, and Mechanical Oscillators

Campbell, William M., McAllister, Ben T., Goryachev, Maxim, Ivanov, Eugene N. and Tobar, Michael E. (2021). Searching for Scalar Dark Matter via Coupling to Fundamental Constants with Photonic, Atomic, and Mechanical Oscillators. Physical Review Letters, 126 (7) 071301, 7. doi: 10.1103/PhysRevLett.126.071301

Searching for Scalar Dark Matter via Coupling to Fundamental Constants with Photonic, Atomic, and Mechanical Oscillators

2021

Conference Publication

Precision frequency techniques to search for dark matter and new physics with photonic, phononic and atomic oscillators

McAllister, Ben T., Campbell, William M., Goryachev, Maxim, Ivanov, Eugene N. and Tobar, Michael E. (2021). Precision frequency techniques to search for dark matter and new physics with photonic, phononic and atomic oscillators. 2021 Joint Conference of the European Frequency and Time Forum and IEEE International Frequency Control Symposium (EFTF/IFCS), Gainesville, FL, United States, 7-17 July 2021. Piscataway, NJ, United States: Institute of Electrical and Electronics Engineers. doi: 10.1109/EFTF/IFCS52194.2021.9604314

Precision frequency techniques to search for dark matter and new physics with photonic, phononic and atomic oscillators

Supervision

Availability

Dr William Campbell is:
Available for supervision

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