Jovian Auroral Distributions Experiment (JADE) is an instrument that detects and measures ions and electrons around the a spacecraft. It is a suite of detectors on the Juno Jupiter orbiter (launched 2011, orbiting Jupiter since 2016). JADE includes JADE-E, JADE-I, and the EBox. JADE-E and JADE-I are sensors that are spread out on the spacecraft, and the EBox is located inside the Juno Radiation Vault. EBox stands for Electronics Box. JADE-E is for detecting electrons from 0.1 to 100 keV, and there are three JADE-E sensors on Juno. JADE-I is for detecting ions from 5 eV to 50 keV. It is designed to return data in situ on Jupiter's auroral region and magnetospheric plasmas, by observing electrons and ions in this region. It is primarily focused on Jupiter, but it was turned on in January 2016 while still en route to study inter-planetary space (It was several million miles from Jupiter at that time).
JADE was built by Southwest Research Institute (SwRI), located in the United States in Texas. Two other instruments help understand the magnetosphere of Jupiter, WAVES and MAG. The JEDI instrument measures higher energy ions and electrons and JADE lower energy ones, they are complimentary.
The JADE sensors, in addition to other materials, also use a special plastic designed to endure the spaceflight conditions. The instrument uses special molded rings of polyether ether ketone (PEEK).
Each of the three JADE-E electron sensors weighs 5.25 Kilograms (11.57 pounds, 0.827 stones) with dimensions of 21 cm on all sides;
Each JADE-E sensor includes
The one JADE-I sensors is a spherical top hat electrostatic analyzer combined with a time-of-flight mass spectrometer. The sensor is made of nickel plated titanium metal. JADE-I sensor weighs 7.55 Kilograms(16.65 pounds, 1.1889 stones).
JADE-I can measure ions from 1 to 50 atomic mass units (AMU), with the ability to discern atomic hydrogen, H2+, H3+, oxygen and sulfur.