Paul D. Gaynor scite author profile

Paul D. Gaynor

5Publications

48Citation Statements Received

61Citation Statements Given

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National Physical Laboratory

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Optical interferometry–based array of seafloor environmental sensors using a transoceanic submarine cable

Marra

Fairweather

Kamalov

et al. 2022

Science

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Optical fiber–based sensing technology can drastically improve Earth observations by enabling the use of existing submarine communication cables as seafloor sensors. Previous interferometric and polarization-based techniques demonstrated environmental sensing over cable lengths up to 10,500 kilometers. However, measurements were limited to the integrated changes over the entire length of the cable. We demonstrate the detection of earthquakes and ocean signals on individual spans between repeaters of a 5860-kilometer-long transatlantic cable rather than the whole cable. By applying this technique to the existing undersea communication cables, which have a repeater-to-repeater span length of 45 to 90 kilometers, the largely unmonitored ocean floor could be instrumented with thousands of permanent real-time environmental sensors without changes to the underwater infrastructure.

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An Experimental Investigation into DEF Dosing Strategies for Heavy Duty Vehicle Applications

Gaynor¹,

Reid²,

Hargrave³

et al. 2015

SAE Int. J. Engines

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Dual-axis cubic cavity for drift-compensated multi-wavelength laser stabilisation

et al. 2021

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We describe a ‘clock control unit’ based on a dual-axis cubic cavity (DACC) for the frequency stabilisation of lasers involved in a strontium optical lattice clock. The DACC, which ultimately targets deployment in space applications, provides a short-term stable reference for all auxiliary lasers—i.e. cooling, clear-out, and optical lattice—in a single multi-band cavity. Long-term cavity drift is compensated by a feed-forward scheme exploiting a fixed physical relation to an orthogonal second cavity axis; either by reference to an ultrastable 698 nm clock laser, or by exploiting the differential drift between orthogonal axes extracted by a single laser in common view. Via a change of mirror set in the cavity axis accessed by the clock laser, the system could also provide stabilisation for sub-Hz linewidths at the 698 nm clock wavelength, fulfilling all stabilisation requirements of the clock.

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Optical Investigation on the Ability of a Cordierite Substrate Mixing Device to Combat Deposits in SCR Dosing Systems

Lockyer¹,

Reid²,

Hargrave³

et al. 2015

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Development of a Portable Optical Clock

Morris

Aldous

Gellesch

et al. 2019

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Paul D. Gaynor

Optical interferometry–based array of seafloor environmental sensors using a transoceanic submarine cable

An Experimental Investigation into DEF Dosing Strategies for Heavy Duty Vehicle Applications

Dual-axis cubic cavity for drift-compensated multi-wavelength laser stabilisation

Optical Investigation on the Ability of a Cordierite Substrate Mixing Device to Combat Deposits in SCR Dosing Systems

Development of a Portable Optical Clock

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