Add to ORKGAspheric mirrors for extreme ultraviolet lithography (EUVL) at a wavelength of 13nm require surface figure accuracy approaching 0.10 nm rms. A new type of interferometry, based on the fundamental process of diffraction, is described that has the intrinsically ability to achieve this accuracy on aspherical surfaces. However, care must be taken in the design and implementation of the optical system that images the aspheric mirror onto the CCD camera. Non-common paths of the measurement and reference wavefronts within the optical system, as well as distortion of the image of aspheric mirror on the CCD, must be addressed in order to realize sub-nanometer accuracy. The phase shifting diffraction interferometer and the mitigation of potential ima...
This paper will illustrate several approaches to retrieving the shape of aspherical reflective surfa...
While interferometry is routinely used for the characterization and alignment of lithographic optics...
Extreme ultraviolet lithography (EUVL) is a candidate technology for the microelectronics industry w...
Extreme ultraviolet projection lithography operating at a wavelength of 13nm requires surface figure...
For the past thirty years, microchips have doubled in complexity every two years. This increasing co...
For the past thirty years, microchips have doubled in complexity every two years. This increasing co...
EUV lithography is a promising and viable candidate for circuit fabrication with 0.1-micron critical...
We have demonstrated significant advances in the production of aspheric optics for extreme ultraviol...
A previously reported interferometer without intermediate optics is used to perform measurements on ...
Future generations of microchips will probably be produced using extreme ultraviolet light with a wa...
Future generations of microchips will probably be produced using extreme ultraviolet light with a wa...
At Lawrence Livermore National Laboratory (LLNL), we have the unique combination of precision turnin...
Projection optical systems built for Extreme Ultraviolet Lithography (EUVL) demonstrated the ability...
This paper will illustrate several approaches to retrieving the shape of aspherical reflective surfa...
Recent advances in all-reflective diffraction-limited optical systems designed for extreme ultraviol...
This paper will illustrate several approaches to retrieving the shape of aspherical reflective surfa...
While interferometry is routinely used for the characterization and alignment of lithographic optics...
Extreme ultraviolet lithography (EUVL) is a candidate technology for the microelectronics industry w...
Extreme ultraviolet projection lithography operating at a wavelength of 13nm requires surface figure...
For the past thirty years, microchips have doubled in complexity every two years. This increasing co...
For the past thirty years, microchips have doubled in complexity every two years. This increasing co...
EUV lithography is a promising and viable candidate for circuit fabrication with 0.1-micron critical...
We have demonstrated significant advances in the production of aspheric optics for extreme ultraviol...
A previously reported interferometer without intermediate optics is used to perform measurements on ...
Future generations of microchips will probably be produced using extreme ultraviolet light with a wa...
Future generations of microchips will probably be produced using extreme ultraviolet light with a wa...
At Lawrence Livermore National Laboratory (LLNL), we have the unique combination of precision turnin...
Projection optical systems built for Extreme Ultraviolet Lithography (EUVL) demonstrated the ability...
This paper will illustrate several approaches to retrieving the shape of aspherical reflective surfa...
Recent advances in all-reflective diffraction-limited optical systems designed for extreme ultraviol...
This paper will illustrate several approaches to retrieving the shape of aspherical reflective surfa...
While interferometry is routinely used for the characterization and alignment of lithographic optics...
Extreme ultraviolet lithography (EUVL) is a candidate technology for the microelectronics industry w...