Optical fibre distributed LHD with SMA element for discrete alarm

The invention claimed is: 1. A temperature sensing system comprising: an optical waveguide; a shape memory alloy (SMA) element deformable as a function of temperature, and at least partially surrounding at the optical waveguide; and an interrogator configured to detect distributed temperature along the optical waveguide using spectroscopy and configured to detect strain in the optical waveguide induced by deformation of the SMA sheath to identify local hot spots along the optical waveguide. 2. The temperature sensing system of claim 1 , wherein the spectroscopy has spatial resolution less than twice a minimum hotspot width. 3. The temperature sensing system of claim 1 , wherein the spectroscopy has spatial resolution less than 30 cm. 4. The temperature sensing system of claim 1 , wherein the SMA sheath is a tube of SMA material surrounding at least a section of the optical waveguide. 5. The temperature sensing system of claim 1 , wherein the SMA sheath is a coil or spring of SMA material entwined about at least a section of the optical waveguide. 6. The temperature sensing system of any preceding claim, wherein the spectroscopy is strain-insensitive, and wherein detecting strain comprises polarization-based or intensity-based strain sensing. 7. The temperature sensing system of claim 6 , wherein the spectroscopy uses Raman scattering techniques. 8. The temperature sensing system of any of claims 1 to 5 , wherein the spectroscopy uses Rayleigh or Brillouin scattering spectroscopy with cross sensitivity to strain. 9. The temperature sensing system of any of claims 1 to 5 , wherein the SMA sheath is configured to deform at a critical temperature equal to a local overheat temperature alarm threshold and thereby strain the optical waveguide. 10. The temperature sensing system of claim 9 , wherein the SMA sheath is configured to constrict at the critical temperature and thereby compress the optical waveguide. 11. The temperature sensing system of claim 9 , wherein the SMA sheath is configured to bend at the critical temperature, thereby bending or kinking the optical waveguide sensing element. 12. The temperature sensing system of any of claims 1 to 5 , wherein the optical waveguide is one of a plurality of optical waveguides, and further comprising an optical switch configured to cycle through the plurality of optical waveguides. 13. The temperature sensing system of claims 1 to 5 , wherein the interrogator comprises: a light source configured to transmit light down the optical waveguide; a detector configured to sense relative shifts in spectrographic characteristics of the optical waveguide; and a data processor configured to correlate the relative shifts in spectrographic characteristics of the optical waveguide with changes in strain and temperature in the optical waveguide.