Abstract: An active optical fibre, including: a core; an inner cladding substantially surrounding the core, whereby the core and the inner cladding form an area configured to propagate pump radiation; an outer cladding comprised of at least a third material with at least a third refractive index substantially surrounding the inner cladding, the third refractive index being smaller than the second refractive index, whereby the outer cladding confines pump radiation to the core and the inner cladding; and a coating comprised of a thermally conductive material substantially surrounding the outer cladding, wherein the inner cladding is configured to reduce impact of spatial hole-burning on absorption of the pump radiation as the pump radiation propagates through the active optical fibre, and wherein the thermally conductive material of the coating supports a reduced temperature increase between the area and an outer surface of the coating.

Abstract: The present disclosure provides an optical detector for detecting radiation. The optical detector includes an optical light guide that incorporates a sensing region. The sensing region includes a sensing material that emits luminescence light when the sensing material is exposed to suitable ionizing radiation and accrues trapped charge which is released and produces optically stimulated luminescence (OSL) when the sensing material is optically stimulated. The optical detector also includes a light source for optically stimulating the sensing material and a light detector for detecting the OSL. The optical light guide is arranged to guide light through the sensing region and between the sensing region and the luminescence light detector.

Abstract: An acoustic field in a body of water is monitored using a coherent light field emitter applying a distributed light field across the surface of the water to be reflected, and a sensor is used to sense reflected components of the light field above the surface and to provide a signal representing information in the reflected light and related to movements in the water and caused by the acoustic field. The signal is provided from an interferometry technique and useable to derive information on the underwater acoustic field in a useful form.

Abstract: The present invention provides a method and apparatus for obtaining a measure of the chromatic dispersion of a fibre bragg grating, the method comprising: disposing the grating in a reflection arm of an interferometer; inputting probe laser light into the interferometer; stepping the wavelength of the light across the reflection bandwidth of the grating, while at each step modulating the wavelength by a wavelength modulation less than the size of the respective step, and thereby producing a resulting phase modulation; and demodulating the phase modulation and determining therefrom a measure of the chromatic dispersion.

Abstract: The present invention is for an improved modulator and detection device that use reversed biased diodes containing not intentionally doped (NID) optically active regions sandwiched between conductive layers of p-doped and n-doped semiconductor layers. A photo-current is generated using the optical non-linearity of multiple quantum structures inside the active region and that can be used in an external circuit to provide feedback to the device itself. This is commonly referred to as the self electro-optic effect device (SEED) where the applied electric field modulates the absorption (excitonic in nature due to the reduced dimensionality of the quantum well) of the active layer by the use of the quantum confined Stark effect. The present invention seeks to improve on known devices by separating the photo-current from the perpendicular biased electric field so as to produce a four electrical port device, by simultaneously applying non-parallel fields.

Abstract: The method of detecting a fault in an epicyclic gear train having ring, planet and sun gears, and a planet carrier, the steps including locating a vibration monitoring detector in association with the ring gear; operating the gear train to produce vibration detected by the detector to obtain an overall vibration signal; and timewise dividing the overall vibration signal into contributions from each planet gear.