Patent Number: 
Section: claims

1. A metrology system, comprising:an x-ray illumination source configured to generate an amount of soft x-ray radiation including multiple illumination wavelengths within a desired photon energy range from 80 electronvolts to 3,000 electronvolts and an undesired photon energy range below 80 electronvolts;an x-ray detector configured to detect an amount of x-ray radiation scattered from a semiconductor wafer in response to the amount of soft x-ray radiation;a plurality of x-ray optical elements each having at least one optical surface disposed in an optical path between the x-ray illumination source and the detector;an integrated optical filter fabricated over the optical surface of at least one of the plurality of x-ray optical elements, the integrated optical filter including one or more material layers that absorb radiation in the undesired photon energy range and transmits radiation in the desired photon energy range; anda computing system configured to determine a value of a parameter of interest characterizing a structure disposed on the semiconductor wafer based on the detected amount of x-ray radiation. 2. The metrology system of claim 1, wherein the metrology system is a soft x-ray reflectometry system. 3. The metrology system of claim 2, wherein the soft x-ray reflectometry system operates in a grazing incidence mode. 4. The metrology system of claim 2, wherein the metrology system operates in an imaging mode. 5. The metrology system of claim 1, wherein the integrated optical filter is disposed over a multilayer x-ray reflecting structure fabricated over the optical surface of the at least one of the plurality of x-ray optical elements. 6. The metrology system of claim 5, further comprising:a diffusion barrier layer, the diffusion barrier layer disposed between the one or more material layers of the integrated optical filter and the multilayer x-ray reflecting structure, disposed between the optical surface and the multilayer x-ray reflecting structure, or disposed over the one or more material layers of the integrated optical filter. 7. The metrology system of claim 1, wherein the optical surface of the at least one of the plurality of x-ray optical elements is curved. 8. The metrology system of claim 1, wherein a thickness of the integrated optical filter varies as a function of location on the optical surface of the at least one of the plurality of x-ray optical elements. 9. The metrology system of claim 1, further comprising:a stand-alone optical filter disposed in the optical path between the x-ray illumination source and the detector.