Your search keyword '"Raul E. Riveros"' showing total 2 results

1. An Updated Optical Design for the Off-Plane Grating Rocket Experiment

Author

Benjamin D. Donovan, Randall L. McEntaffer, James H Tutt, Bridget C. O’Meara, Fabien Grise, Kim D Allgood, Michael P Biskach, Kai-wing Chan, Michal Hlinka, John D Kearney, James R Mazzarella, Ryan S Mcclelland, Ai Numata, Raul E Riveros, Timo T Saha, Peter M Solly, William W Zhang, Andrew D Holland, Matthew R Lewis, Matthew R. Soman, and Karen Holland

Subjects

Optics

Abstract

The Off-plane Grating Rocket Experiment (OGRE) is a soft X-ray spectroscopy suborbital rocket payload designed to obtain the highest-resolution soft X-ray spectrum of Capella to date. With a spectral resolution goal of R(lambda/delta lambda) > 2000 at select wavelengths in its 10-55 A bandpass of interest, the payload will be able to study the line-dominated spectrum of Capella in unprecedented detail. To achieve this performance goal, the payload will employ three key technologies: mono-crystalline silicon X-ray mirrors developed at NASA Goddard Space Flight Center, reflection gratings manufactured at The Pennsylvania State University, and electron-multiplying CCDs developed by The Open University and XCAM Ltd. In this document, an updated optical design that can achieve the performance goal of the OGRE spectrometer and a new grating alignment concept to realize this optical design are described.

Published

2019

2. Toward Large-Area Sub-Arcsecond X-Ray Telescopes II

Author

Stephen L ODell, Ryan Allured, Andrew O Ames, Michael P Biskach, David M Broadway, Ricardo J Bruni, David Burrows, Jian Cao, Brandon D Chalifoux, Kai-wing Chan, Yip-Wah Chung, Vincenzo Cotroneo, Ronald F Elsner, Jessica A Gaskin, Mikhail V Gubarev, Ralf K Heilmann, Edward Hertz, Thomas N Jackson, Kiranmayee Kilaru, Jeffery J Kolodziejczak, Ryan S McClelland, Brian D Ramsey, Paul B Reid, Raul E Riveros, Jacqueline M Roche, Suzanne E Romaine, Timo T Saha, Mark L Schattenburg, Daniel A Schwartz, Eric D Schwartz, Peter M Solly, Susan E Trolier-McKinstry, Mellville P Ulmer, Alexey Vikhlilin, Margeaux L Wallace, and William W Zhang

Subjects

Astronomy, Optics

Abstract

In order to advance significantly scientific objectives, future x-ray astronomy missions will likely call for x-ray telescopes with large aperture areas (approx. = 3 sq m) and fine angular resolution (approx. = 1"). Achieving such performance is programmatically and technologically challenging due to the mass and envelope constraints of space-borne telescopes and to the need for densely nested grazing-incidence optics. Such an x-ray telescope will require precision fabrication, alignment, mounting, and assembly of large areas (approx. = 600 sq m) of lightweight (approx. = 2 kg/sq m areal density) high-quality mirrors, at an acceptable cost (approx. = 1 M$/sq m of mirror surface area). This paper reviews relevant programmatic and technological issues, as well as possible approaches for addressing these issues-including direct fabrication of monocrystalline silicon mirrors, active (in-space adjustable) figure correction of replicated mirrors, static post-fabrication correction using ion implantation, differential erosion or deposition, and coating-stress manipulation of thin substrates.

Published

2016