Microstructured optical fiber, supercontinuum light source comprising microstructured optical fiber and use of such light source

The invention claimed is: 1. A microstructured optical fiber for generating incoherent supercontinuum light upon feeding of pump light, said microstructured optical fiber having a length and a longitudinal axis along its length and comprising, along its length, a core region that is capable of guiding light along the length of said microstructured optical fiber, and a first cladding region surrounding said core region, said first cladding region comprising a microstructure having a plurality of microstructure elements, wherein said microstructured optical fiber, along its length, comprises: a first section with a first length L 1 , wherein the microstructure elements of said optical fiber at least at a first cross-section through the first section perpendicularly to the longitudinal axis has a first pitch Λ 1 , a first microstructure diameter d 1 and a first relative size d 1 /Λ 1 of microstructure elements, wherein the microstructured optical fiber at least in said first cross-section has a first zero dispersion wavelength ZDW 1 1 in the range from about 920 to about 1120 nm a second section with a second length L 2 , wherein the microstructure elements of said optical fiber at least at a second cross-section through the second section perpendicularly to the longitudinal axis has a second pitch Λ 2 , a second microstructure diameter d 2 and a second relative size d 2 /Λ 2 of microstructure elements, wherein said microstructured optical fiber at least in said second cross-section through the microstructured optical fiber has a first zero dispersion wavelength ZDW 2 1 and a second zero dispersion wavelength ZDW 2 2 , said second zero dispersion wavelength being about 2200 nm or shorter, wherein the sum of the first length L 1 and the second length L 2 is about 1 meter or larger. 2. A microstructured optical fiber according to claim 1 , wherein said second pitch Λ 2 is smaller than a blue edge pitch Λ blue , where said blue edge pitch Λ blue is defined as a specific pitch giving the shortest possible blue edge wavelength of the supercontinuum light for said second relative size d 2 /Λ 2 of microstructure elements. 3. A microstructured optical fiber according to claim 1 , wherein the relative size d 1 /Λ 1 of microstructure elements in the first cross-section is about 0.75 or less. 4. A microstructured optical fiber according to claim 1 , wherein said microstructured optical fiber in said second cross-section has a group velocity matched wavelength GVMW 2 in the range from about 650 nm to about 800 nm. 5. A microstructured optical fiber according to claim 1 , wherein the second relative size d 2 /Λ 2 of the microstructure elements is about 0.75 or less. 6. A microstructured optical fiber according to claim 1 , wherein the second pitch Λ 2 is about 0.9 times the blue edge pitch Λ blue or smaller. 7. A microstructured optical fiber according to claim 1 , wherein said first zero dispersion wavelength ZDW 2 1 of said second cross-section is less than about 1000 nm, such as less than about 900 nm. 8. A microstructured optical fiber according to claim 7 , wherein the second pitch Λ 2 is smaller than the first pitch Λ 1 . 9. A microstructured optical fiber according to claim 7 , where said second pitch Λ 2 is in the range from about 1.1 μm to about 1.7 μm. 10. A microstructured optical fiber according to claim 1 , wherein the microstructured optical fiber further comprises a second tapered section L i2 and a third section with third length L 3 , wherein the microstructure elements of said optical fiber at least at a third cross-section through the third section perpendicularly to the longitudinal axis has a third pitch Λ 3 , a third microstructure diameter d 3 and a third relative size d 3 /Λ 3 of microstructure elements; wherein the third pitch Λ 3 is larger than the second pitch Λ 2 . 11. A microstructured optical fiber according to claim 1 , wherein a cross-section through the first tapered section perpendicularly to the longitudinal axis of the fiber comprises microstructures at a first taper pitch Λ t1 , a first taper microstructure diameter d t1 and a first taper relative size d t1 /Λ t1 of microstructure elements, wherein the first taper section of the microstructured optical fiber has a taper group velocity matched wavelength GVMW t1 corresponding to a second zero dispersion wavelength ZDW t1 in said cross-section, where said taper group velocity matched wavelength GVMW t1 is in the range from about 400 nm to about 500 nm for any cross-sections of the first tapered section. 12. A microstructured optical fiber according to claim 1 , wherein the first section is coupled to the second section by a splicing. 13. An incoherent supercontinuum source comprising: i. a microstructured optical fiber for generating incoherent supercontinuum light upon feeding of pump light, said microstructured optical fiber having a length and a longitudinal axis along its length and comprising, along its length, a core region that is capable of guiding light along the length of the microstructured optical fiber, and a first cladding region surrounding said core region, said first cladding region comprising a microstructure having a plurality of microstructure elements, ii. a pump source with a center wavelength between about 1000 nm and about 1100 nm and a pulse length of longer than about 500 fs, wherein said microstructured optical fiber, along its length, comprises: a first section with a first length L 1 , wherein the microstructure elements of said optical fiber at least at a first cross-section through the first section perpendicularly to the longitudinal axis has a first pitch Λ 1 , a first microstructure diameter d 1 and a first relative size d 1 /Λ 1 of microstructure elements, wherein said microstructured optical fiber at least in said first cross-section has a first zero dispersion wavelength ZDW 1 1 in the range from about 920 to about 1120 nm; a second section with a second length L 2 , wherein the microstructure elements of said optical fiber at least at a second cross-section through the second section perpendicularly to the longitudinal axis has a second pitch Λ 2 , a second microstructure diameter d 2 and a second relative size d 2 /Λ 2 of microstructure elements, wherein said microstructured optical fiber at least in said second cross-section through the microstructured optical fiber has a first zero dispersion wavelength ZDW 2 1 and a second zero dispersion wavelength ZDW 2 2 , said second zero dispersion wavelength being about 2200 nm or shorter, wherein the sum of the first length L 1 and the second length L 2 is about 1 meter or larger. 14. An incoherent supercontinuum source according to claim 13 , wherein the second pitch Λ 2 is smaller than a blue edge pitch Λ blue , wherein said blue edge pitch Λ blue is defined as a specific pitch giving the shortest possible blue edge wavelength of the supercontinuum light for said second relative size d 2 /Λ 2 of microstructure elements. 15. An incoherent supercontinuum source according to claim 13 , said microstructured optical fiber further comprising a first tapered section with length L t1 , wherein the tapered section connects the first section and the second section. 16. An incoherent supercontinuum source according to claim 13 , wherein the first section is coupled to the second section by a splicing. 17. The incoherent supercontinuum source according to claim 13 , wherein the pump source is a seed laser arranged to provide seed pulses with a seed pulse frequency F seed , th