Broadband light source device and method of creating broadband light pulses

What is claimed is: 1. A broadband light source device for creating broadband light pulses, the broadband light source device comprising: a hollow-core fiber including a filling gas and configured to create the broadband light pulses by an optical non-linear broadening of pump laser pulses, wherein the hollow-core fiber comprises: an axial hollow light guiding fiber core configured to support core modes of a guided light field; and an inner fiber structure surrounding the fiber core and configured to support transverse wall modes of the guided light field; and a pump laser source device configured to create and provide the pump laser pulses at an input side of the hollow-core fiber, wherein the transverse wall modes include a fundamental transverse wall mode and second and higher order transverse wall modes. 2. The broadband light source device of claim 1 , wherein fiber walls of the inner fiber structure facing the fiber core have a wall thickness such that at least the second and higher order transverse wall modes are spectrally shifted to shorter wavelengths relative to the core modes. 3. The broadband light source device of claim 1 , wherein the inner fiber structure of the hollow-core fiber is configured such that at least the second and higher order transverse wall modes and the core modes have a spectral displacement relative to each other. 4. The broadband light source device of claim 3 , wherein the inner fiber structure of the hollow-core fiber is configured such that all transverse wall modes and the core modes have a spectral displacement relative to each other. 5. The broadband light source device of claim 1 , wherein resonant coupling of the guided light field from the core modes to the transverse wall modes is suppressed due to separation of the core modes and at least the second and higher order transverse wall modes. 6. The broadband light source device of claim 1 , wherein an emitted spectrum of the broadband light pulses is substantially spectrally flat. 7. The broadband light source device of claim 1 , wherein the hollow-core fiber comprises a distribution of wall thicknesses along its length. 8. The broadband light source device of claim 7 , wherein the distribution of wall thicknesses comprises a larger wall thickness at the input side of the hollow-core fiber relative to an output side of the hollow-core fiber. 9. The broadband light source device of claim 1 , wherein the hollow-core fiber is a non-bandgap type. 10. The broadband light source device of claim 9 , wherein the hollow-core fiber is an anti-resonant-reflecting (ARF) fiber. 11. The broadband light source device of claim 10 , wherein the inner fiber structure comprises a symmetrical arrangement. 12. A method of creating broadband light pulses, the method comprising: coupling pump laser pulses into a hollow-core fiber including a filling gas, wherein the hollow-core fiber comprises: an axial hollow light guiding fiber core configured to support core modes of a guided light field; and an inner fiber structure surrounding the fiber core and configured to support transverse wall modes of the guided light field, wherein the transverse wall modes include a fundamental transverse wall mode and second and higher order transverse wall modes; and creating the broadband light pulses by an optical non-linear broadening of the pump laser pulses in the hollow-core fiber. 13. The method of claim 12 , wherein fiber walls of the inner fiber structure facing the fiber core have a wall thickness such that at least the second and higher order transverse wall modes are spectrally shifted to shorter wavelengths relative to the core modes. 14. The method of claim 12 , further comprising spectrally displacing at least the second and higher order transverse wall modes and the core modes relative to each other. 15. The method of claim 14 , wherein all transverse wall modes and the core modes are spectrally displaced relative to each other. 16. A hollow-core fiber for creating broadband light pulses by an optical non-linear broadening of pump laser pulses in a filling gas, the hollow-core fiber comprising: an axial hollow light guiding fiber core filled with the filling gas and configured to support core modes of a guided light field; and an inner fiber structure surrounding the fiber core and configured to support transverse wall modes of the guided light field, wherein the transverse wall modes include a fundamental transverse wall mode and second and higher order transverse wall modes. 17. The hollow-core fiber of claim 16 , wherein fiber walls of the inner fiber structure facing the fiber core have a wall thickness such that at least the second and higher order transverse wall modes are spectrally shifted to shorter wavelengths relative to the core modes. 18. The hollow-core fiber of claim 16 , wherein resonant coupling of the guided light field from the core modes to the transverse wall modes is suppressed due to separation of the core modes and at least the second and higher order transverse wall modes. 19. The hollow-core fiber of claim 16 , wherein the hollow-core fiber comprises a distribution of wall thicknesses along its length. 20. The hollow-core fiber of claim 19 , wherein the distribution of wall thicknesses comprises a larger wall thickness at an input side of the hollow-core fiber relative to an output side of the hollow-core fiber. 21. The hollow-core fiber of claim 16 , wherein the hollow-core fiber is an anti-resonant-reflecting (ARF) fiber. 22. The hollow-core fiber of claim 21 , wherein the inner fiber structure comprises a symmetrical arrangement.