Howard A. MacEwen scite author profile

Howard A. MacEwen

5Publications

50Citation Statements Received

27Citation Statements Given

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Affiliations

Ensco (United States), SA Technologies (United States)

Publications

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Modular assembled space telescope

et al. 2013

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Abstract. We present a new approach to building a modular segmented space telescope that greatly leverages the heritage of the Hubble Space Telescope and the James Webb Space Telescope. The modular design in which mirror segments are assembled into identical panels allows for economies of scale and for efficient space assembly that make a 20-m aperture approach cost effective. This assembly approach can leverage NASA’s future capabilities and has the power to excite the public’s imagination. We discuss the science drivers, basic architecture, technology, and leveraged NASA infrastructure, concluding with a proposed plan for going forward. © 2013 Society of Photo-Optical Instrumentation Engineers (SPIE) [DOI: 10.1117/1.OE.52.9.091802

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Large diffractive/refractive apertures for space and airborne telescopes

MacEwen

Breckinridge²

2013

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Recent work, specifically the Lawrence Livermore National Laboratory (LLNL) Eyeglass and the DARPA MOIRE programs, have evaluated lightweight, easily packaged and deployed, diffractive/refractive membrane transmissive lenses as entrance apertures for large space and airborne telescopes. This presentation describes a new, innovative approach to the theory of diffractive and refractive effects in lenses used as telescope entrance apertures and the fabrication of the necessary large membrane optics. Analyses are presented to indicate how a broadband, highly transmissive diffractive / refractive membrane lens can be developed and fabricated, and potential applications in defense and astronomy are briefly discussed.

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An evolvable space telescope for future astronomical missions

Polidan

Breckinridge²,

Lillie³

et al. 2014

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Astronomical flagship missions after JWST will require affordable space telescopes and science instruments. Innovative spacecraft-electro-opto-mechanical system architectures matched to the science requirements are needed for observations for exoplanet characterization, cosmology, dark energy, galactic evolution formation of stars and planets, and many other research areas. The needs and requirements to perform this science will continue to drive us toward larger and larger apertures. Recent technology developments in precision station keeping of spacecraft, interplanetary transfer orbits, wavefront/sensing and control, laser engineering, macroscopic application of nano-technology, lossless optical designs, deployed structures, thermal management, interferometry, detectors and signal processing enable innovative telescope/system architectures with break-through performance. Unfortunately, NASA's budget for Astrophysics is unlikely to be able to support the funding required for the 8 m to 16 m telescopes that have been studied as a follow-on to JWST using similar development/assembly approaches without decimating the rest of the Astrophysics Division's budget. Consequently, we have been examining the feasibility of developing an "Evolvable Space Telescope" that would begin as a 3 to 4 m telescope when placed on orbit and then periodically be augmented with additional mirror segments, structures, and newer instruments to evolve the telescope and achieve the performance of a 16 m or larger space telescope. This paper reviews the approach for such a mission and identifies and discusses candidate architectures.

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An evolvable space telescope for future astronomical missions 2015 update

Polidan

Breckinridge²,

Lillie³

et al. 2015

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Poster Previews for Conference 9904: Space Telescopes and Instrumentation 2016: Optical, Infrared, and Millimeter Wave

MacEwen¹,

Fazio²,

Lystrup³

2016

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Howard A. MacEwen

Modular assembled space telescope

Large diffractive/refractive apertures for space and airborne telescopes

An evolvable space telescope for future astronomical missions

An evolvable space telescope for future astronomical missions 2015 update

Poster Previews for Conference 9904: Space Telescopes and Instrumentation 2016: Optical, Infrared, and Millimeter Wave

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