Add to ORKGWe have developed a multilayer mirror for extreme ultraviolet (EUV) radiation which has near-zero reflectance for CO2 laser radiation (10.6 mm). The EUV reflecting multilayer coating is based on alternating B4C and Si layers. Substantial transparency of these materials with respect to the infrared radiation allows utilizing the multilayer coating in a resonant absorbing structure for 10.6 mm. We have integrated the multilayer structure with a well known quarter-wavelength thin film absorber. Experimental samples were manufactured using magnetron sputtering deposition technique. The samples demonstrate suppression of the infrared radiation by more than two orders of magnitude. At the same time EUV peak reflectance amounts 45% at 13.5 nm, wit...
We report on the development of a hybrid mirror realized by integrating an EUV-reflecting multilayer...
This thesis describes the development and characterization of high thermal and radiation stable Si-b...
The demand for enhanced optical resolution in order to structure and observe ever smaller details ha...
We have developed a multilayer mirror for extreme ultraviolet (EUV) radiation (13.5 nm) which has ne...
We have developed a multilayer mirror for extreme ultraviolet (EUV) radiation that has low reflectan...
We have developed two multilayer based solutions that provide reflectivity of EUV radiation and supp...
We have demonstrated a hybrid extreme ultraviolet (EUV) multilayer mirror for 6.x nm radiation that ...
The most promi¬sing next generation lithography technology is extreme ultraviolet lithography (EUVL)...
We have developed a multilayer mirror for extreme UV (EUV) radiation (13.5nm), which has near-zero r...
An extreme ultraviolet multilayer mirror with an integrated spectral filter for the IR range is pres...
In this paper, a new type of spectral filter mirrors for extreme ultraviolet radiation based on DLC/...
An extreme ultraviolet (EUV) multilayer mirror with an integrated spectral filter for the infrared (...
Multilayer mirror coatings which reflect extreme ultraviolet (EUV) radiation are a key enabling tech...
The stability of Mo/Si multilayer mirrors under extreme ultraviolet (EUV) radiations has been invest...
In this paper, the authors report on La/B4C multilayer mirrors designed for an incidence angle of 45...
We report on the development of a hybrid mirror realized by integrating an EUV-reflecting multilayer...
This thesis describes the development and characterization of high thermal and radiation stable Si-b...
The demand for enhanced optical resolution in order to structure and observe ever smaller details ha...
We have developed a multilayer mirror for extreme ultraviolet (EUV) radiation (13.5 nm) which has ne...
We have developed a multilayer mirror for extreme ultraviolet (EUV) radiation that has low reflectan...
We have developed two multilayer based solutions that provide reflectivity of EUV radiation and supp...
We have demonstrated a hybrid extreme ultraviolet (EUV) multilayer mirror for 6.x nm radiation that ...
The most promi¬sing next generation lithography technology is extreme ultraviolet lithography (EUVL)...
We have developed a multilayer mirror for extreme UV (EUV) radiation (13.5nm), which has near-zero r...
An extreme ultraviolet multilayer mirror with an integrated spectral filter for the IR range is pres...
In this paper, a new type of spectral filter mirrors for extreme ultraviolet radiation based on DLC/...
An extreme ultraviolet (EUV) multilayer mirror with an integrated spectral filter for the infrared (...
Multilayer mirror coatings which reflect extreme ultraviolet (EUV) radiation are a key enabling tech...
The stability of Mo/Si multilayer mirrors under extreme ultraviolet (EUV) radiations has been invest...
In this paper, the authors report on La/B4C multilayer mirrors designed for an incidence angle of 45...
We report on the development of a hybrid mirror realized by integrating an EUV-reflecting multilayer...
This thesis describes the development and characterization of high thermal and radiation stable Si-b...
The demand for enhanced optical resolution in order to structure and observe ever smaller details ha...