Supercontinuum light source comprising tapered microstructured optical fiber

The invention claimed is: 1. A supercontinuum light source comprising: a microstructured optical fiber for generating supercontinuum light responsive to being pumped, and a pump light source arranged to pump said microstructured optical fiber with pump light having a first wavelength, λ 1 ; wherein: said microstructured optical fiber has a length and a longitudinal axis along its length and comprises a core region that is capable of guiding light at the first wavelength, λ 1 , along the longitudinal axis of said microstructured optical fiber and a first cladding region surrounding said core region; said microstructured optical fiber comprises a first fiber length section, a second fiber length section as well as an intermediate fiber length section between the first and second fiber length sections; the core region of said first fiber length section has a first characteristic core diameter W 1 , the core region of said second fiber length section has a second characteristic core diameter W 2 , where said second characteristic core diameter W 2 is smaller than said first characteristic core diameter W 1 , and where said second characteristic core diameter W 2 is substantially constant along said second fiber length section; the characteristic core diameter of the core region of said intermediate fiber length section of the microstructured optical fiber is tapered from the first characteristic core diameter W 1 to the second characteristic core diameter W 2 over a tapered length L i ; and wherein said second fiber length section has zero dispersion at a wavelength ZDW 2 , where ZDW 2 is up to about λ 1 +50 nm, and wherein said second fiber length section has anomalous dispersion at wavelengths above said ZDW 2 . 2. A microstructured optical fiber for generating supercontinuum light upon feeding of light having a first wavelength λ 1 , the microstructured optical fiber having a length and a longitudinal axis along its length and comprises a core region that is capable of guiding light at said first wavelength λ 1 along the longitudinal axis of said microstructured optical fiber and a first cladding region surrounding said core region; said microstructured optical fiber comprises a first fiber length section, a second fiber length section as well as an intermediate fiber length section between the first and second fiber length sections; the core region of said first fiber length section has a first characteristic core diameter W 1 , the core region of said second fiber length section has a second characteristic core diameter W 2 , where said second characteristic core diameter W 2 is smaller than said first characteristic core diameter W 1 , and where said second characteristic core diameter W 2 is substantially constant along said second fiber length section; the characteristic core diameter of the core region of said intermediate fiber length section of the microstructured optical fiber is tapered from the first characteristic core diameter W 1 to the second characteristic core diameter W 2 over a tapered length L i ; and wherein said second fiber length section has zero dispersion at a wavelength ZDW 2 , where ZDW 2 is up to about λ 1 +50 nm, and wherein said second fiber length section has anomalous dispersion at wavelengths above said ZDW 2 . 3. The microstructured optical fiber according to claim 2 , wherein said first characteristic core diameter is larger than about 7 μm. 4. The microstructured optical fiber according to claim 2 , wherein ZDW 2 is in the range from about λ 1 −150 nm to about λ 1 +50 nm. 5. The microstructured optical fiber according to claim 2 , wherein said first wavelength λ 1 is up to about 1100 nm. 6. The microstructured optical fiber according to claim 2 , wherein the first fiber length section has zero dispersion at a wavelength ZDW 1 where ZDW 1 > about λ 1 +20 nm. 7. The microstructured optical fiber according to claim 2 , wherein said first characteristic core diameter is larger than about 1.5 times the second characteristic core diameter. 8. The microstructured optical fiber according to claim 2 , wherein said first characteristic core diameter is larger than about 10 μm. 9. The microstructured optical fiber according to claim 2 , wherein said second characteristic core diameter is larger than about 3.5 μm. 10. The microstructured optical fiber according to claim 2 , wherein said first cladding region comprises a microstructure, said microstructure comprising a plurality of microstructure elements having a microstructure element diameter, d f , said microstructure elements being arranged at a pitch ∧. 11. The microstructured optical fiber according to claim 10 , wherein the relative size (d f /∧) of the microstructure elements is larger in the second fiber length section of the microstructured optical fiber than in the first fiber length section of the microstructured optical fiber, said relative size being the ratio between the diameter (d f ) of the microstructure elements and the pitch ∧. 12. The microstructured optical fiber according to claim 10 , wherein the relative size (d f /∧) of the microstructure elements is chosen so that the first fiber length section is a single mode fiber at least at the first wavelength λ 1 . 13. The microstructured optical fiber according to claim 10 , where said microstructure elements are arranged in a plurality of layers within the first cladding region. 14. The microstructured optical fiber according to claim 10 , where said microstructure is at least partially maintained along the first and second fiber length sections of the microstructured optical fiber. 15. The microstructured optical fiber according to claim 2 , where said core region comprises a material doped with at least one rare earth element. 16. The microstructured optical fiber according to claim 2 , wherein said core region has an effective refractive index n core , and, ii) said first cladding being arranged for guiding light at a wavelength λ 3 , said first cladding having an effective refractive index n first-clad , and iii) said second cladding having an effective refractive index n second-clad wherein n core >n first-clad >n second-clad and λ 1 >λ 3 .