Extended spectrum supercontinuum pulse source

The invention claimed is: 1. A source of optical supercontinuum radiation, the source comprising: a length of microstructured optical fibre; a pump laser adapted to generate lasing radiation at a pump wavelength; said length of microstructured optical fibre arranged for receiving lasing radiation at the pump wavelength so as to generate optical supercontinuum radiation, said microstructured optical fibre comprising a core region and a cladding region which surrounds the core region; wherein said source of optical supercontinuum radiation is arranged such that at a location along the length of microstructured optical fibre: (a) said microstructured optical fibre comprises a group index (GI) versus wavelength curve having a zero crossing wavelength (ZCW) at which the group velocity dispersion has a zero crossing and such that the GI increases for wavelengths away from the ZCW such that the curve includes group indices that are greater than the GI at the ZCW for wavelengths greater than as well as less than the ZCW; (b) light having a wavelength of greater than 2000 nm is propagating along the length of microstructured optical fibre and has a GI that is matched to the GI of light that is propagating along the length of microstructured optical fibre and that has a wavelength of less than 400 nm; and (c) the pump wavelength is within 200 nm of the ZCW. 2. The source of optical supercontinuum radiation according to claim 1 wherein said pump laser is adapted to generate lasing radiation having a pump wavelength in the wavelength range of 900 nm to 1200 nm. 3. The source of optical supercontinuum radiation according to claim 1 wherein said core region has a substantially circular cross section. 4. The source of optical supercontinuum radiation according to claim 1 wherein said microstructured optical fibre is formed substantially of silica. 5. The source of optical supercontinuum radiation according to claim 1 wherein said pump laser comprises a mode-locked laser. 6. The source of optical supercontinuum radiation according to claim 1 wherein said cladding region comprises at least two capillary air holes having substantially the same diameter and which extend substantially along the length of the microstructured optical fibre. 7. The source of optical supercontinuum radiation according to claim 1 wherein said core region has a diameter in the range of 1 μm to 5 μm. 8. The source of optical supercontinuum radiation according to claim 1 wherein the optical supercontinuum radiation is generated in substantially the fundamental mode of the microstructured optical fibre. 9. The source of optical supercontinuum radiation according to claim 8 wherein the entire spectrum of the optical supercontinuum radiation is generated in the fundamental mode of the microstructured optical fibre. 10. A source of optical supercontinuum radiation, comprising: a length of microstructured optical fibre; a pump laser adapted to generate lasing radiation at a pump wavelength; said microstructured optical fibre being configured for receiving said lasing radiation at the pump wavelength so as to generate the optical supercontinuum radiation, said microstructured optical fibre comprising a core region and a cladding region which surrounds the core region; wherein said microstructured optical fibre is configured so as to have a group index (GI) versus wavelength curve having a zero crossing wavelength (ZCW) at which the group velocity dispersion has a zero crossing and such that the GI increases for wavelengths away from the ZCW such that the curve includes group indices that are greater than the GI at the ZCW for wavelengths greater than as well as less than the ZCW; wherein the pump wavelength is within 200 nm of the ZCW; and wherein said microstructured optical fibre is further configured such that the GI versus wavelength curve is such that the GI at a wavelength greater than 2000 nm is matched to the GI at a wavelength less than 400 nm. 11. The source of optical supercontinuum radiation according to claim 10 wherein said pump laser is adapted to generate lasing radiation having a pump wavelength in the wavelength range of 900 nm to 1200 nm. 12. The source of optical supercontinuum radiation according to claim 10 wherein said core region has a substantially circular cross section. 13. The source of optical supercontinuum radiation according to claim 10 wherein said microstructured optical fibre is formed substantially of silica. 14. The source of optical supercontinuum radiation according to claim 10 wherein said pump laser comprises a mode-locked laser. 15. The source of optical supercontinuum radiation according to claim 10 wherein said cladding region comprises at least two capillary air holes having substantially the same diameter and which extend substantially along the length of the microstructured optical fibre. 16. The source of optical supercontinuum radiation according to claim 10 wherein said core region has a diameter in the range of 1 μm to 5 μm. 17. The source of optical supercontinuum radiation according to claim 10 wherein the optical supercontinuum radiation is generated in substantially the fundamental mode of the microstructured optical fibre. 18. The source of optical supercontinuum radiation according to claim 17 wherein the entire spectrum of the optical supercontinuum radiation is generated in substantially the fundamental mode of the microstructured optical fibre.