The optomechanical design for the Off-plane Grating Rocket Experiment (OGRE)

Authors :: Bridget C. O'Meara
Timo T. Saha
Michal Hlinka
Ai Numata
Kai Wing Chan
Benjamin D. Donovan
Michael P. Biskach
Peter M. Solly
James R. Mazzarella
Randall L. McEntaffer
Neil J. Murray
John D. Kearney
Karen Holland
Matthew R. Soman
Matthew R. Lewis
James H. Tutt
Ted Schultz
Raul E. Riveros
Kim D. Allgood
Andrew D. Holland
William W. Zhang
Source :: Optomechanical Engineering 2019.
Publication Year :: 2019
Publisher :: SPIE, 2019.
Abstract: The Off-plane Grating Rocket Experiment (OGRE) is a sounding rocket payload designed to obtain a high-resolution soft X-ray spectrum of Capella. OGRE’s optical system uses new technologies including state-of-the-art X-ray optics, custom arrays of reflection gratings, and an array of EM-CCDs. Many of these technologies will be tested for the first time in flight with OGRE. To achieve the high performance that these new technologies are capable of, the payload components must be properly aligned to meet high tolerances. This paper will outline OGRE’s opto-mechanical design for achieving alignment within these tolerances. Specifically, the design of the X-ray grating arrays will be discussed.