Title :
High Performance X-Ray Transmission Windows Based on Graphenic Carbon
Author :
Huebner, Sebastian ; Miyakawa, Natsuki ; Kapser, Stefan ; Pahlke, Andreas ; Kreupl, Franz
Author_Institution :
Inst. of Hybrid Electron. Syst., Tech. Univ. Munchen, Munich, Germany
Abstract :
A novel x-ray transmission window based on graphenic carbon has been developed with superior performance compared to beryllium transmission windows that are currently used in the field. Graphenic carbon in combination with an integrated silicon frame allows for a window design which does not use a mechanical support grid or additional light blocking layers. Compared to beryllium, the novel x-ray transmission window exhibits an improved transmission in the low energy region ( 0.1 keV-3 keV) while demonstrating excellent mechanical stability, as well as light and vacuum tightness. Therefore, the newly established graphenic carbon window, can replace beryllium in x-ray transmission windows with a nontoxic and abundant material.
Keywords :
X-ray apparatus; X-ray optics; graphene; mechanical stability; C; beryllium transmission windows; electron volt energy 0.1 keV to 3 keV; graphenic carbon; high performance X-ray transmission windows; integrated silicon frame; light blocking layers; mechanical stability; mechanical support grid; vacuum tightness; window design; Carbon; Detectors; Fabrication; Graphene; Silicon; Substrates; Beryllium; X-ray applications; X-ray detectors; carbon; graphene; thin films;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2015.2396116
