Patrick T. Phelan scite author profile

Patrick T. Phelan

5Publications

31Citation Statements Received

9Citation Statements Given

How they've been cited

134

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Affiliations

Southwest Research Institute, University College Cork

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The Solar Orbiter SPICE instrument

Consortium¹,

Anderson³

et al. 2020

A&A

109

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Aims. The Spectral Imaging of the Coronal Environment (SPICE) instrument is a high-resolution imaging spectrometer operating at extreme ultraviolet (EUV) wavelengths. In this paper, we present the concept, design, and pre-launch performance of this facility instrument on the ESA/NASA Solar Orbiter mission. Methods. The goal of this paper is to give prospective users a better understanding of the possible types of observations, the data acquisition, and the sources that contribute to the instrument's signal. Results. The paper discusses the science objectives, with a focus on the SPICE-specific aspects, before presenting the instrument's design, including optical, mechanical, thermal, and electronics aspects. This is followed by a characterisation and calibration of the instrument's performance. The paper concludes with descriptions of the operations concept and data processing. Conclusions. The performance measurements of the various instrument parameters meet the requirements derived from the mission's science objectives. The SPICE instrument is ready to perform measurements that will provide vital contributions to the scientific success of the Solar Orbiter mission.

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SPICE EUV spectrometer for the Solar Orbiter mission

Fludra

Griffin

Caldwell

et al. 2013

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SPICE is a high resolution imaging spectrometer operating at extreme ultraviolet wavelengths, 70.4 -79.0 nm and 97.3 -104.9 nm. It is a facility instrument on the Solar Orbiter mission. SPICE will address the key science goals of Solar Orbiter by providing the quantitative knowledge of the physical state and composition of the plasmas in the solar atmosphere, in particular investigating the source regions of outflows and ejection processes which link the solar surface and corona to the heliosphere. By observing the intensities of selected spectral lines and line profiles, SPICE will derive temperature, density, flow and composition information for the plasmas in the temperature range from 10,000 K to 10MK. The instrument optics consists of a single-mirror telescope (off-axis paraboloid operating at near-normal incidence), feeding an imaging spectrometer. The spectrometer is also using just one optical element, a Toroidal Variable Line Space grating, which images the entrance slit from the telescope focal plane onto a pair of detector arrays, with a magnification of approximately x5. Each detector consists of a photocathode coated microchannel plate image intensifier, coupled to active-pixel-sensor (APS). Particular features of the instrument needed due to proximity to the Sun include: use of dichroic coating on the mirror to transmit and reject the majority of the solar spectrum, particle-deflector to protect the optics from the solar wind, and use of data compression due to telemetry limitations.

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Bias characteristics of an X to Q band GaAs varactor tripler†

Burkley

Phelan

Sexton

1971

International Journal of Electronics

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Implementation of an Integrated Avionics Unit for a space vehicle

Phelan

McDaniel

2017

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Bias characteristics of a GaAs X band-to-Q band inline frequency tripler

Phelan

Cronin

Sexton

1966

Electron. Lett. (UK)

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Patrick T. Phelan

The Solar Orbiter SPICE instrument

SPICE EUV spectrometer for the Solar Orbiter mission

Bias characteristics of an X to Q band GaAs varactor tripler†

Implementation of an Integrated Avionics Unit for a space vehicle

Bias characteristics of a GaAs X band-to-Q band inline frequency tripler

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