Characterization of the supermirror hard-x-ray telescope for the InFOCmuS balloon experiment.

A hard-x-ray telescope is successfully produced for balloon observations by making use of depth-graded multilayers, or so-called supermirrors, with platinum-carbon (Pt/C) layer pairs. It consists of four quadrant units assembled in an optical configuration with a diameter of 40 cm and a focal length of 8 m. Each quadrant is made of 510 pieces of coaxially and confocally aligned supermirrors that significantly enhance the sensitivity in an energy range of 20-40 keV. The configuration of the telescope is similar to the x-ray telescope onboard Astro-E, but with a longer focal length. The reflectivity of supermirrors is of the order of 40% in the energy range concerned at a grazing angle of 0.2 deg. The effective area of a fully assembled telescope is 50 cm2 at 30 keV. The angular resolution is 2.37 arc min at half-power diameter 8.0 keV. The field of view is 12.6 arc min in the hard-x-ray region, depending somewhat on x-ray energies. We discuss these characteristics, taking into account the figure errors of reflectors and their optical alignment in the telescope assembly. This hard-x-ray telescope is unanimously afforded in the International Focusing Optics Collaboration for muCrab Sensitivity balloon experiment.

[1]  Ulrich G. Briel,et al.  The Einstein /HEAO 2/ X-ray Observatory , 1979 .

[2]  B. Aschenbach,et al.  X-ray telescopes , 1985 .

[3]  Hideyo Kunieda,et al.  Thirty-meter X-ray pencil beam line at the Institute of Space and Astronautical Science , 1993 .

[4]  Finn Erland Christensen,et al.  Multilayered supermirror structures for hard x-ray synchrotron and astrophysics instrumentation , 1994, Optics & Photonics.

[5]  Yang Soong,et al.  Conical thin foil x-ray mirror fabrication via surface replication , 1995, Optics & Photonics.

[6]  Hideyo Kunieda,et al.  The X-ray telescope on board ASCA , 1995 .

[7]  Hideyo Kunieda,et al.  Multilayer supermirror coating for hard x-ray telescope , 1996, Optics & Photonics.

[8]  Yang Soong,et al.  Foil X-ray mirrors , 1996 .

[9]  Kai-Wing Chan,et al.  Development of balloonborne hard x-ray telescopes using a multilayer supermirror , 1997, Optics & Photonics.

[10]  Martin C. Weisskopf,et al.  Calibration of the AXAF observatory: overview , 1997, Optics & Photonics.

[11]  N Gehrels,et al.  Supermirror hard-x-ray telescope. , 1998, Applied optics.

[12]  Yoshiharu Namba,et al.  Replication of a multilayer supermirror , 1998, Optics & Photonics.

[13]  T. Okajima,et al.  Fabrication and characterization of multilayer supermirrors for hard X-ray optics. , 1998, Journal of synchrotron radiation.

[14]  P. Serlemitsos,et al.  X-Ray Telescope Onboard Astro-E. II. Ground-Based X-Ray Characterization. , 2001, Applied optics.

[15]  P. Gondoin,et al.  XMM-Newton observatory. I. The spacecraft and operations , 2001 .

[16]  K Yamashita,et al.  X-ray telescope onboard Astro-E: optical design and fabrication of thin foil mirrors. , 2001, Applied optics.

[17]  Kai-Wing Chan,et al.  Production and performance of the inFOCmicroS 20-40-keV graded multilayer mirror. , 2013, Applied optics.