David McClelland, Ph.D.
Affiliations: | Physics | University of Otago, Dunedin, Otago, New Zealand |
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Publications
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Kapasi DP, Eichholz J, McRae T, et al. (2020) Tunable narrow-linewidth laser at 2 μm wavelength for gravitational wave detector research. Optics Express. 28: 3280-3288 |
Adhikari RX, Arai K, Brooks AF, et al. (2020) A cryogenic silicon interferometer for gravitational-wave detection Classical and Quantum Gravity. 37: 165003 |
Adya VB, Yap MJ, Töyrä D, et al. (2020) Quantum enhanced kHz gravitational wave detector with internal squeezing Classical and Quantum Gravity. 37: 07LT02 |
Yap MJ, Gould DW, McRae TG, et al. (2019) Squeezed vacuum phase control at 2 μm. Optics Letters. 44: 5386-5389 |
Yap MJ, Cripe J, Mansell GL, et al. (2019) Broadband reduction of quantum radiation pressure noise via squeezed light injection Nature Photonics. 14: 19-23 |
Mansell GL, McRae TG, Altin PA, et al. (2018) Observation of Squeezed Light in the 2 μm Region. Physical Review Letters. 120: 203603 |
Abbott BP, Abbott R, Abbott TD, et al. (2018) First Search for Nontensorial Gravitational Waves from Known Pulsars. Physical Review Letters. 120: 031104 |
Walker M, Abbott TD, Aston SM, et al. (2017) Effects of transients in LIGO suspensions on searches for gravitational waves. The Review of Scientific Instruments. 88: 124501 |
Tarquin Ralph D, Altin PA, Rabeling DS, et al. (2017) Interferometric wavefront sensing with a single diode using spatial light modulation. Applied Optics. 56: 2353-2358 |
Abbott B, Abbott R, Abbott T, et al. (2017) Erratum: “First Search for Gravitational Waves from Known Pulsars with Advanced LIGO” (2017, ApJ, 839, 12) The Astrophysical Journal. 851: 71 |