D G Jones scite author profile

D G Jones

5Publications

14Citation Statements Received

4Citation Statements Given

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Affiliations

Texas A&M University, Durham College

Publications

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GMT integral-field spectrograph (GMTIFS) conceptual design

McGregor

Bloxham

Boz

et al. 2012

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The Giant Magellan Telescope (GMT) Integral-Field Spectrograph (GMTIFS) c is one of six potential first-light instruments for the 25m-diameter Giant Magellan Telescope. The Australian National University has completed a Conceptual Design Study for GMTIFS. The science cases for GMTIFS are summarized, and the instrument capabilities and design challenges are described. GMTIFS will be the work-horse adaptive-optics instrument for GMT. It contains an integral-field spectrograph (IFS) and Imager accessing the science field, and an On-Instrument Wave-Front Sensor (OIWFS) that patrols the 90 arcsec radius guide field. GMTIFS will address a wide range of science from epoch of reionization studies to forming galaxies at high redshifts and star and planet formation in our Galaxy. It will fully exploit the Laser Tomography Adaptive Optics (LTAO) system on the telescope. The tight image quality and positioning stability requirements that this imposes drive the design complexity. Some cryogenic mechanisms in the IFS must set to ~ 1 μm precision. The Beam-Steering mechanism in the OIWFS must set to milli-arcsecond precision over the guide field, corresponding to ~ 1 μm precision in the f/8 focal plane. Differential atmospheric dispersion must also be corrected to milli-arcsecond precision. Conceptual design solutions addressing these and other issues are presented and discussed.

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The Momentum Spectrum of Cosmic Ray Muons near Sea Level in the Momentum Range 0.4-10 GeV/c

et al. 1962

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Momentum Spectrum of Cosmic Rays at Sea-Level

Ashton

Brooke

Gardener

et al. 1960

Nature

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Systems engineering applied to ELT instrumentation: the GMACS case

Faes¹,

Souza

Froning

et al. 2018

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An important tool for the development of the next generation of extremely large telescopes (ELTs) is a robust Systems Engineering (SE) methodology. GMACS is a first-generation multi-object spectrograph that will work at visible wavelengths on the Giant Magellan Telescope (GMT). In this paper, we discuss the application of SE to the design of next-generation instruments for ground-based astronomy and present the ongoing development of SE products for the GMACS spectrograph, currently in its Conceptual Design phase. SE provides the means to assist in the management of complex projects, and in the case of GMACS, to ensure its operational success, maximizing the scientific potential of GMT.

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The Rate of Energy Loss of Cosmic Ray Muons in a Neon-Methane Mixture

Jones¹,

West²,

Wolfendale³

1963

Proc. Phys. Soc.

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D G Jones

GMT integral-field spectrograph (GMTIFS) conceptual design

The Momentum Spectrum of Cosmic Ray Muons near Sea Level in the Momentum Range 0.4-10 GeV/c

Momentum Spectrum of Cosmic Rays at Sea-Level

Systems engineering applied to ELT instrumentation: the GMACS case

The Rate of Energy Loss of Cosmic Ray Muons in a Neon-Methane Mixture

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