Prototyping iridium coated mirrors for x-ray astronomy

X-ray astronomy uses space-based telescopes to overcome the disturbing absorption of the Earth´s atmosphere. The telescope mirrors are operating at grazing incidence angles and are coated with thin metal films of high-Z materials to get sufficient reflectivity for the high-energy radiation to be observed. In addition the optical payload needs to be light-weighted for launcher mass constrains. Within the project JEUMICO, an acronym for “Joint European Mirror Competence”, the Aschaffenburg University of Applied Sciences and the Czech Technical University in Prague started a collaboration to develop mirrors for X-ray telescopes. The X-ray telescopes currently developed within this Bavarian- Czech project are of Lobster eye type optical design. Corresponding mirror segments use substrates of flat silicon wafers which are coated with thin iridium films, as this material is promising high reflectivity in the X-ray range of interest. The deposition of the iridium films is based on a magnetron sputtering process. Sputtering with different parameters, especially by variation of the argon gas pressure, leads to iridium films with different properties. In addition to investigations of the uncoated mirror substrates the achieved surface roughness has been studied. Occasional delamination of the iridium films due to high stress levels is prevented by chromium sublayers. Thereby the sputtering parameters are optimized in the context of the expected reflectivity of the coated X-ray mirrors. In near future measurements of the assembled mirror modules optical performances are planned at an X-ray test facility.

[1]  Paul Gorenstein,et al.  Focusing X-Ray Optics for Astronomy , 2010 .

[2]  R. Hudec,et al.  Alternative optics for space x-ray telescopes: from large to small , 2017, International Conference on Space Optics.

[3]  B. Phillips,et al.  Chapter 1 – General Biology , 1980 .

[4]  J. R. P. Angel,et al.  Lobster Eyes As X-Ray Telescopes , 1979, Other Conferences.

[5]  Eric J Warrant,et al.  Vision in the deep sea , 2004, Biological reviews of the Cambridge Philosophical Society.

[6]  Thorsten Döhring,et al.  Indirect glass slumping for future x-ray missions: overview, status and progress , 2015, SPIE Optical Engineering + Applications.

[7]  Thorsten Döhring,et al.  Iridium coatings for space based x-ray optics , 2017, International Conference on Space Optics.

[8]  Julien Lumeau,et al.  Mechanical stress in dielectric mirrors: towards a fine control of the flatness , 2017, International Conference on Space Optics.

[9]  Adolf Inneman,et al.  Study of lobster eye optics with iridium coated x-ray mirrors for a rocket experiment , 2017, Optics + Optoelectronics.

[10]  Kai-Wing Chan,et al.  Coating thin mirror segments for lightweight x-ray optics , 2013, Optics & Photonics - Optical Engineering + Applications.

[11]  Thorsten Döhring,et al.  The challenge of developing thin mirror shells for future x-ray telescopes , 2015, SPIE Optical Systems Design.

[12]  Stephen L. O'Dell,et al.  Achieving zero stress in iridium, chromium, and nickel thin films , 2015, Europe Optics + Optoelectronics.

[13]  R. Hudec,et al.  Applications of lobster eye optics , 2015, Europe Optics + Optoelectronics.

[14]  Thorsten Döhring,et al.  Development of low-stress Iridium coatings for astronomical x-ray mirrors , 2016, Astronomical Telescopes + Instrumentation.

[15]  Kai-Wing Chan,et al.  Preserving accurate figures in coating and bonding mirrors for lightweight x-ray telescopes , 2014, Astronomical Telescopes and Instrumentation.