Toward large-area sub-arcsecond x-ray telescopes | Zendy

Stephen L. O’Dell | Zendy; Thomas L. Aldcroft | Zendy; Ryan Allured | Zendy; Carolyn Atkins | Zendy; D. N. Burrows | Zendy; Jian Cao | Zendy; Brandon D. Chalifoux | Zendy; Kai-Wing Chan | Zendy; Vincenzo Cotroneo | Zendy; Ronald F. Elsner | Zendy; Michael E. Graham | Zendy; Mikhail V. Gubarev | Zendy; Ralf K. Heilmann | Zendy; Raegan L. JohnsonWilke | Zendy; Kiranmayee Kilaru | Zendy; Jeffery J. Kolodziejczak | Zendy; Charles F. Lillie | Zendy; Stuart McMuldroch | Zendy; Brian D. Ramsey | Zendy; Paul B. Reid | Zendy; Raul E. Riveros | Zendy; Jacqueline M. Roche | Zendy; Timo T. Saha | Zendy; Mark L. Schattenburg | Zendy; D. A. Schwartz | Zendy; Susan TrolierMcKinstry | Zendy; M. P. Ulmer | Zendy; Semyon Vaynman | Zendy; A. Vikhlinin | Zendy; Xiaoli Wang | Zendy; Martin C. Weisskopf | Zendy; Rudeger H. T. Wilke | Zendy; William W. Zhang | Zendy

AI Assistant Blog Pricing

Home ZAIA Blog

Open Access

Toward large-area sub-arcsecond x-ray telescopes

Author(s) -

Stephen L. O’Dell,

Thomas L. Aldcroft,

Ryan Allured,

Carolyn Atkins,

D. N. Burrows,

Jian Cao,

Brandon D. Chalifoux,

Kai-Wing Chan,

Vincenzo Cotroneo,

Ronald F. Elsner,

Michael E. Graham,

Mikhail V. Gubarev,

Ralf K. Heilmann,

Raegan L. JohnsonWilke,

Kiranmayee Kilaru,

Jeffery J. Kolodziejczak,

Charles F. Lillie,

Stuart McMuldroch,

Brian D. Ramsey,

Paul B. Reid,

Raul E. Riveros,

Jacqueline M. Roche,

Timo T. Saha,

Mark L. Schattenburg,

D. A. Schwartz,

Susan TrolierMcKinstry,

M. P. Ulmer,

Semyon Vaynman,

A. Vikhlinin,

Xiaoli Wang,

Martin C. Weisskopf,

Rudeger H. T. Wilke,

William W. Zhang

Publication year - 2014

Publication title -

proceedings of spie, the international society for optical engineering/proceedings of spie

Language(s) - English

Resource type - Conference proceedings

SCImago Journal Rank - 0.192

H-Index - 176

eISSN - 1996-756X

pISSN - 0277-786X

DOI - 10.1117/12.2061882

Subject(s) - physics , x ray telescope , x ray optics , optics , angular resolution (graph drawing) , aperture (computer memory) , adaptive optics , fabrication , x ray astronomy , space (punctuation) , image resolution , active optics , remote sensing , x ray , astronomy , telescope , computer science , geology , medicine , alternative medicine , pathology , mathematics , combinatorics , acoustics , operating system

The future of x-ray astronomy depends upon development of x-ray telescopes with larger aperture areas (≈ 3 m2) and fine angular resolution (≈ 1″). Combined with the special requirements of nested grazing-incidence optics, the mass and envelope constraints of space-borne telescopes render such advances technologically and programmatically challenging. Achieving this goal will require precision fabrication, alignment, mounting, and assembly of large areas (≈ 600 m2) of lightweight (≈ 1 kg/m2 areal density) high-quality mirrors at an acceptable cost (≈ 1 M$/m2 of mirror surface area). This paper reviews relevant technological and programmatic issues, as well as possible approaches for addressing these issues—including active (in-space adjustable) alignment and figure correction.

The content you want is available to Zendy users.

Already have an account? Click here to sign in.

Having issues? You can contact us here

Accelerating Research