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Plasma Instrument for Magnetic Sounding
	Faraday cup sensors and instrument housings in two configurations. On the left is the final flight hardware, with insulating thermal blankets installed; on the right is a test configuration that protects sensitive hardware for transportation.
Operator	NASA
Manufacturer	JHU/APL
Function	Plasma Sensor
Mission duration	Cruise: 3-6 years; Science phase: ≥ 3 years
Host spacecraft
Spacecraft	Europa Clipper
Operator	NASA
Launch date	≈ 2025
Rocket	SLS
Launch site	Kennedy Space Center

The Plasma Instrument for Magnetic Sounding (PIMS) is a Faraday cup based instrument that will fly on board the Europa Clipper orbiter to explore Jupiter's moon Europa. PIMS will measure the plasma that populates Jupiter's magnetosphere and Europa's ionosphere.^[2]

The principal investigator is Joseph Westlake, from the Johns Hopkins University Applied Physics Laboratory (APL).

Overview

The plasma in Jupiter's magnetosphere interacts with Europa's atmosphere. This interaction results in magnetic field perturbations. While understanding this plasma interaction is inherently interesting, it is also crucial for successful magnetic sounding Europa's subsurface ocean.^[3] The interaction of the Jovian magnetic field with Europa's subsurface ocean produces a magnetic induction signature that is used to determine the ice shell thickness, ocean depth, and ocean salinity of Europa's subsurface ocean. Separating the sources of magnetic field perturbations produces a better understanding of the ocean's properties.

The Plasma Instrument for Magnetic Sounding during development.

The Plasma Instrument for Magnetic Sounding (PIMS) is a Faraday cup-based instrument that will measure the plasma of Jupiter's magnetosphere and Europa's ionosphere.^[4] Such devices on spacecraft date back to Explorer 10 in 1961 and were used by the Voyager 1 spacecraft to study Jupiter's magnetosphere in 1979.^[4]

Science goals

The three science goals of PIMS investigation are: ^[4]^[5]

study how Europa influences its magnetosphere, and Jupiter's magnetosphere.
study the mechanisms for weathering and releasing material from Europa's surface into the atmosphere and ionosphere.
constrain the inner ocean's salinity and depth.

Principle

In magnetic sounding, currents induced in Europa by the changing Jovian plasma produce a detectable secondary magnetic field that reflects properties of Europa's subsurface ocean such as depth and conductivity. PIMS is composed of three Faraday cups, each with a 90º field of view.^[5] ^[6] The cups measure the current produced on metal collector plates by charged particles with sufficient energy per charge (E/q) to pass through a modulated retarding grid placed at variable high voltage.^[5]

In the Jovian magnetospheric plasma PIMS measures the density and flow velocity of ions with energies below 7 keV, and the density and energy of electrons with energies below 2 keV. In Europa's ionosphere (and in transitional plasmas, such as plumes) PIMS measures the density and temperature of ions and electrons.^[5] The PIMS investigation can also help in the search for active plumes and measure their mass-loading, by measuring the magnetic perturbations of Europa's ionosphere.^[5]

Image of Jupiter's northern aurorae, showing the main auroral oval, the polar emissions, and the spots generated by the interaction with Jupiter's natural satellites

PIMS works in synergy with the Interior Characterization of Europa using Magnetometry (ICEMAG) instrument to probe Europa's subsurface ocean.^[3]^[5]^[6]

Parameter	Performance^[5]
In Magnetospheric Mode	•Electron energy: 10 eV – 2 keV •Ion energy: 20 eV – 6 keV
In Ionospheric Mode	•Electron energy: 1 – 50 eV •Ion energy: 1 – 50 eV
Energy resolution	10% ΔE/E
Sensitivity	0.5 pA/cm² – 1×10⁵ pA/cm²
Field of view	4 × 90° cone
Temporal resolution	1 second for a full ion and electron sweep in Ionospheric Mode 4 seconds for a full ion and electron sweep in Magnetospheric Mode 5 seconds for a full ion and electron sweep in Transition Mode

References

^ Europa Clipper passes key review. Jeff Foust, Space News. 22 August 2019.
^ Europa PIMS prototype faraday cup development. 2018 IEEE Aerospace Conference. March 2018. doi:10.1109/AERO.2018.8396522.
^ ^a ^b Two Johns Hopkins APL Instruments Selected for NASA Mission to Explore Europa Archived 2018-05-14 at the Wayback Machine. Geoffrey Brown, Applied Physics Laboratory - News. 27 May 2015.
^ ^a ^b ^c The Plasma Instrument for Magnetic Sounding (PIMS) on The Europa Clipper Mission. Westlake, Joseph H.; McNutt, Ralph L.; Kasper, Justin C.; Case, Anthony W.; Grey, Matthew P.; Kim, Cindy K.; Battista, Corina C.; Rymer, Abigail; Paty, Carol S.; Jia, Xianzhe; Stevens, Michael L.; Khurana, Krishan; Kivelson, Margaret G.; Slavin, James A.; Korth, Haje H.; Smith, Howard T.; Krupp, Norbert; Roussos, Elias; Saur, Joachim. American Astronomical Society, DPS meeting #48, id.123.27; 2016.
^ ^a ^b ^c ^d ^e ^f ^g PIMS - Plasma Instrument for Magnetic Sounding (PDF). Joseph Westlake. 24 August 2015.
^ ^a ^b Tribou, Richard (19 June 2015). "NASA going to Jupiter moon Europa to hunt for water, keys to life". Orlando Sentinel. Orlando, FL. Archived from the original on 2017-11-13. Retrieved 2017-11-12.

[Launch_2025-1] Europa Clipper passes key review. Jeff Foust, Space News. 22 August 2019.

[2] Europa PIMS prototype faraday cup development. 2018 IEEE Aerospace Conference. March 2018. doi:10.1109/AERO.2018.8396522.

[APL-3] Two Johns Hopkins APL Instruments Selected for NASA Mission to Explore Europa Archived 2018-05-14 at the Wayback Machine. Geoffrey Brown, Applied Physics Laboratory - News. 27 May 2015.

[Westlake_2016-4] The Plasma Instrument for Magnetic Sounding (PIMS) on The Europa Clipper Mission. Westlake, Joseph H.; McNutt, Ralph L.; Kasper, Justin C.; Case, Anthony W.; Grey, Matthew P.; Kim, Cindy K.; Battista, Corina C.; Rymer, Abigail; Paty, Carol S.; Jia, Xianzhe; Stevens, Michael L.; Khurana, Krishan; Kivelson, Margaret G.; Slavin, James A.; Korth, Haje H.; Smith, Howard T.; Krupp, Norbert; Roussos, Elias; Saur, Joachim. American Astronomical Society, DPS meeting #48, id.123.27; 2016.

[Westlake_2015-5] ^ ^a ^b ^c ^d ^e ^f ^g PIMS - Plasma Instrument for Magnetic Sounding (PDF). Joseph Westlake. 24 August 2015.

[ORL-6] Tribou, Richard (19 June 2015). "NASA going to Jupiter moon Europa to hunt for water, keys to life". Orlando Sentinel. Orlando, FL. Archived from the original on 2017-11-13. Retrieved 2017-11-12.

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Europa Clipper
Instruments	ECM E-THEMIS EIS Europa-UVS MASPEX MISE PIMS REASON SUDA ICEMAG (cancelled)
Related	Deep Space Network (DSN) Europa Lander (Independent launch) JPL Proposed rockets: Atlas V, SLS, Falcon Heavy

Magnetospherics
Submagnetosphere	Atmospheric circulation Aurora Earth's magnetic field Geosphere Jet stream Polar wind
Earth's magnetosphere	Birkeland current Bow shock Ionosphere Magnetopause Magnetosheath Magnetosphere Magnetosphere chronology Magnetosphere particle motion Plasmasphere Ring current Van Allen radiation belt
Solar wind	Magnetic cloud Coronal mass ejection Solar flare Geomagnetic storm Heliosphere Interplanetary magnetic field Heliospheric current sheet Heliopause Solar particle event Space climate Space weather
Satellites	Full list Arase (2016) Cluster II Double Star Geotail IMAGE MMS (2015) Polar THEMIS Van Allen Probes Wind
Research projects	EISCAT HAARP SHARE Unwin Radar SuperDARN Sura Ionospheric Heating Facility
Other magnetospheres	Hermian Lunar Martian Jovian Ganymedian Saturnian Uranian Neptunian
Related topics	Flux tube Gas torus Lunar swirls Ring systems Jupiter Saturn Uranus Neptune

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Overview

Science goals

Principle

See also

References