We propose to develop and commercialize a new class of aperiodic multilayer coating that is designed to provide high normal-incidence reflectance over a wide spectral band-pass in the extreme ultraviolet (EUV) region, specifically from 9 to 14 nm. A broad-band reflective coating working at these wavelengths will enable, for the first time, the construction of high-resolution imaging spectrometers for solar physics utilizing diffraction gratings operating near normal incidence in this range, akin to previous instruments utilizing normal-incidence optics working at longer EUV wavelengths (i.e., lambda>17 nm) such as the Hinode/EIS satellite instrument and the EUNIS sounding rocket instrument. The development of high-resolution, normal-incidence grating spectrometers operating in the 914 nm range will in turn allow for detailed investigations of important solar emission lines, such as those from Fe XVIII XXIII, that can provide unique diagnostics of high temperature plasma associated with solar flares and active regions. The successful development of efficient, broad-band EUV multilayers for the 914 nm region as we propose will thus enable future flights of the EUNIS rocket to target this band, and will also enable the development of high resolution spectrometers that can meet the science requirements of future NASA satellite missions, such as RAM, Solar-C and others that are currently being contemplated.
Potential NASA Commercial Applications: (Limit 1500 characters, approximately 150 words) The successful completion of our proposed SBIR activities will result in the development and commercial availability of high-performance broad-band EUV multilayer coatings for the 914 nm range that can meet the performance goals of future NASA solar physics missions. The realization of broad-band multilayer coatings having high reflectance at the target wavelengths, low film stress, and good thermal and temporal stability, will enable the construction of high performance imaging spectrometers targeting this wavelength range for the first time. These new coatings could be used for future flights of the EUNIS sounding rocket instrument, and for future NASA satellite missions such as RAM, Solar-C and others.
Potential NON-NASA Commercial Applications: (Limit 1500 characters, approximately 150 words) The new broad-band EUV multilayers we propose to develop could find application in a variety of research areas in addition to solar physics, including plasma diagnostics, synchrotron instrumentation, ultra-fast physics, and free-electron laser experiments.
Technology Taxonomy Mapping: (NASA's technology taxonomy has been developed by the SBIR-STTR program to disseminate awareness of proposed and awarded R/R&D in the agency. It is a listing of over 100 technologies, sorted into broad categories, of interest to NASA.) Gratings Mirrors Ultraviolet X-rays/Gamma Rays
