Patent Number: 
Section: claims

1. A source-collector module for an extreme ultraviolet (EUV) lithography system, comprising:a laser that generates along a source-collector module axis a pulsed laser beam having a series of pulses;a solid laser-produced plasma (LPP) target having a moving target surface configured to receive the pulsed laser beam with each laser pulse being incident upon the target surface at a different location to create a LPP that generates EUV radiation and debris; anda grazing-incidence collector (GIC) mirror having an input end and an output end and arranged to receive the EUV radiation at the input end and grazingly reflect the EUV radiation at least once to direct the received EUV radiation to an intermediate focus adjacent the output end;a debris mitigation device operably disposed between the solid LPP target and the input end of the GIC mirror to substantially prevent the debris from reaching the GIC mirror; anda radiation-collection enhancement device disposed between the GIC mirror output end and the intermediate focus and configured to direct a portion of the at least once grazingly reflected EUV radiation that exits the output end of the GIC mirror to the intermediate focus. 2. The source-collector module of claim 1, wherein the debris mitigation device comprises a plurality of radial lamellas that rotate to intercept the debris as the debris travels from the LPP to the GIC mirror. 3. The source-collector module of claim 1, wherein the GIC mirror provides a first reflecting surface that does not have a multilayer coating covering a significant portion of the first reflecting surface. 4. The source-collector module of claim 1, wherein the GIC mirror includes a Ru coating. 5. The source-collector module of claim 1, wherein the GIC mirror includes a multilayer coating. 6. The source-collector module of claim 1, wherein the GIC mirror includes at least one segmented GIC shell having the first reflecting surface and a second reflecting surface, with the second reflecting surface having a multilayer coating. 7. The source-collector module of claim 1, wherein the laser beam travels through the GIC from the output end to the input end, through the debris mitigation device and then to the LPP target surface. 8. The source-collector module of claim 1, wherein the LPP target surface includes a coating of LPP-generating material formed atop a substrate. 9. The source-collector module of claim 1, wherein the LPP target surface includes one of Sn and Xe. 10. An extreme ultraviolet (EUV) lithography system for illuminating a reflective reticle, comprising:the source-collector module of claim 1;an illuminator configured to receive the EUV radiation directed to the intermediate focus by the GIC mirror and the radiation-collection enhancement device and form therefrom condensed EUV radiation for illuminating the reflective reticle. 11. The EUV lithography system of claim 10 for forming a patterned image on a photosensitive semiconductor wafer, further comprising:a projection optical system arranged downstream of the reflective reticle and configured to receive reflected EUV radiation from the reflective reticle and form therefrom the patterned image on the photosensitive semiconductor wafer.