PDS_VERSION_ID = PDS3
RECORD_TYPE = STREAM
LABEL_REVISION_NOTE = "
2014-07-01 R.J. Wilson Initial Version.
2017-01-26 R.J. Wilson Second version.
Replaced MCCOMAS2013 with MCCOMAS2017, changed
2013 to 2017, and added volume page numbers to
citation below.
2023-03-03 R.J. Wilson Third version, changed key id from
MCCOMAS2017 to MCCOMASETAL2017B. "
OBJECT = INSTRUMENT
INSTRUMENT_HOST_ID = "JNO"
INSTRUMENT_ID = "JAD"
OBJECT = INSTRUMENT_INFORMATION
INSTRUMENT_NAME = "JOVIAN AURORAL DISTRIBUTIONS EXPERIMENT"
INSTRUMENT_TYPE = "SPECTROMETER"
INSTRUMENT_DESC = "
The content for this description is from chapter 2 of the JADE SIS (Version
01), that is contained in this VOLUME in the DOCUMENT directory. Special
symbols have been replaced to keep this in plain text.
However it is better to go and read the instrument paper [MCCOMASETAL2017B],
which may also be found in the DOCUMENT directory.
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2. JADE Instrument Description
Rather than repeat information, we refer the reader to the Open Access
instrument paper in Space Science Reviews for a full description of the JADE
instrument. Below we provide the DOI link to the paper, reference and the
abstract that gives an overview of the instrument.
DOI:
10.1007/s11214-013-9990-9
Reference:
McComas, D.J. and Alexander, N. and Allegrini, F. and Bagenal, F. and
Beebe, C. and Clark, G. and Crary, F. and Desai, M.I. and De Los Santos, A.
and Demkee, D. and Dickinson, J. and Everett, D. and Finley, T. and
Gribanova, A. and Hill, R. and Johnson, J. and Kofoed, C. and Loeffler, C.
and Louarn, P. and Maple, M. and Mills, W. and Pollock, C. and Reno, M. and
Rodriguez, B. and Rouzaud, J. and Santos-Costa, D. and Valek, P. and
Weidner, S. and Wilson, P. and Wilson, R.J. and White, D. (2017),
The Jovian Auroral Distributions Experiment (JADE) on the Juno Mission to
Jupiter, Space Science Reviews, 213, 547-643, doi: 10.1007/s11214-013-9990-9
Abstract:
The Jovian Auroral Distributions Experiment (JADE) on Juno provides the
critical in situ measurements of electrons and ions needed to understand the
plasma energy particles and processes that fill the Jovian magnetosphere and
ultimately produce its strong aurora. JADE is an instrument suite that
includes three essentially identical electron sensors (JADE-Es), a single ion
sensor (JADE-I), and a highly capable Electronics Box (EBox) that resides in
the Juno Radiation Vault and provides all necessary control, low and high
voltages, and computing support for the four sensors. The three JADE-Es are
arrayed 120 degs apart around the Juno spacecraft to measure complete electron
distributions from ~0.1 to 100 keV and provide detailed electron pitch-angle
distributions at a 1 s cadence, independent of spacecraft spin phase. JADE-I
measures ions from ~5 eV to ~50 keV over an instantaneous field of view of
270 degs x 90 degs in 4 s and makes observations over all directions in space
each 30 s rotation of the Juno spacecraft. JADE-I also provides ion
composition measurements from 1 to 50 amu with m/delta-m ~2.5, which is
sufficient to separate the heavy and light ions, as well as O+ vs. S+, in the
Jovian magnetosphere. All four sensors were extensively tested and calibrated
in specialized facilities, ensuring excellent on-orbit observations at
Jupiter. This paper documents the JADE design, construction, calibration, and
planned science operations, data processing, and data products. Finally, the
Appendix describes the Southwest Research Institute [SwRI] electron
calibration facility, which was developed and used for all JADE-E
calibrations. Collectively, JADE provides remarkably broad and detailed
measurements of the Jovian auroral region and magnetospheric plasmas, which
will surely revolutionize our understanding of these important and complex
regions.
------------------------------------------------------------------------------
"
END_OBJECT = INSTRUMENT_INFORMATION
OBJECT = INSTRUMENT_REFERENCE_INFO
REFERENCE_KEY_ID = "MCCOMASETAL2017B"
END_OBJECT
END_OBJECT = INSTRUMENT
END
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