Polarimeter to Unify the Corona and Heliosphere

Polarimeter to Unify the Corona and Heliosphere
Names	PUNCH
Mission type	Heliophysics
Operator	NASA
Website	punch.spaceops.swri.org
Spacecraft properties
Spacecraft	PUNCH
Spacecraft type	Orbiters (4)
Bus	CYGNSS
Manufacturer	Southwest Research Institute (SwRI)
Dry mass	40 kg (each)
Start of mission
Launch date	October 2023 (planned)
Orbital parameters
Reference system	Geocentric orbit
Regime	Low Earth orbit,; Polar Sun-synchronous
Altitude	570 km
Instruments
	Narrow Field Imager (NFI) - 1 satellite; Wide Field Imagers (WFIs) - 3 satellites
	Small Explorer program (SMEX) ← IXPE

Polarimeter to Unify the Corona and Heliosphere (PUNCH) is a future mission by NASA to study the unexplored region from the middle of the solar corona out to 1 AU from the Sun. PUNCH will consist of a constellation of four microsatellites that through continuous 3D deep-field imaging, will observe the corona and heliosphere as elements of a single, connected system. The four microsatellites are planned to be launched in October 2023,^[1] along with a pair of secondary satellites named Tandem Reconnection and Cusp Electrodynamics Reconnaissance Satellites (TRACERS).^[3]^[2]^[4]

On 20 June 2019, NASA announced that PUNCH and TRACERS were the winning candidates to become the next missions in the agency's Small Explorer program (SMEX).^[4]

PUNCH is led by Craig Edward DeForest at the Southwest Research Institute (SwRI) in Boulder, Colorado. Including launch costs, PUNCH is being funded for no more than US$165 million.^[4]

Mission[]

The stated primary objective by PUNCH's mission is "to fully discern the cross-scale physical processes, from microscale turbulence to the evolution of global-scale structures, that unify the solar corona and heliosphere".^[5] In other words, the mission aims to understand how the solar corona becomes the solar wind.^[6]

The two specific goals are to understand how coronal structures become the ambient solar wind, and to understand the dynamic evolution of transient structures in the young solar wind.^[5] The Principal Investigator, Craig Edward DeForest from Southwest Research Institute (SwRI), thinks that such closer study will also lead to a better understanding of the causes of solar weather events like coronal mass ejections (CMEs), which can damage satellites and disrupt electrical grids and power systems on Earth.^[2]^[4]

The more we understand what drives space weather and its interaction with the Earth and lunar systems, the more we can mitigate its effects – including safeguarding astronauts and technology crucial to NASA's Artemis program to the Moon.^[4]

Instruments[]

The mission configuration consists of a constellation of four observatories, each carrying one instrument.^[7]

The Narrow Field Imager (NFI) sits on only one spacecraft, and is an externally occulted visible-light coronagraph.
The Wide Field Imagers (WFIs) are side-looking heliospheric imagers with planar-corral baffles that sit on the remaining 3 spacecraft.

The fields of view of the 3 WFIs overlap slightly with each other and with the NFI, and the instruments' operation is synchronized. The instruments operate through polarized Thomson-scatter imaging of the transition from corona to heliosphere.^[8] PUNCH integrates images from its constellation of small satellites into a global composite after each orbit, covering ~6 orders of magnitude dynamic range. Through a stream of these images, PUNCH achieves 3D feature localization and accurate deep field imaging.^[9] The mission builds on Cyclone Global Navigation Satellite System (CYGNSS) experience with smallsat constellations.^[10]

Collaborations[]

Phase B will last over a full year. Throughout the process, SwRI is collaborating with the Naval Research Laboratory (NRL) and the Rutherford Appleton Laboratory in Oxfordshire, England, United Kingdom.

PUNCH, which will operate in low Earth orbit, will work in synergy with NASA's Parker Solar Probe and the ESA's Solar Orbiter.^[2]^[8]

References[]

^ Jump up to: ^a ^b Frazier, Sarah (27 July 2021). "NASA's PUNCH Mission to Study the Sun's Environment Moves Toward Launch". NASA. Retrieved 28 July 2021.
^ Jump up to: ^a ^b ^c ^d NASA selects PUNCH, a new mission to study the Sun, Korey Haynes, Astronomy Now, 21 June 2019
^ Press Release from: Southwest Research Institute (SwRI), 20 June 2019
^ Jump up to: ^a ^b ^c ^d ^e NASA Selects Missions to Study Our Sun, Its Effects on Space Weather, NASA, 20 June 2019
^ Jump up to: ^a ^b PUNCH: Objectives, Southwest Research Institute (SwRI), Accessed on 24 November 2020
^ PUNCH: What is Heliophysics?, Southwest Research Institute (SwRI), Accessed on 24 November 2020
^ PUNCH: The Mission Southwest Research Institute (SwRI) Accessed on 24 November 2020
^ Jump up to: ^a ^b "The PUNCH Mission" (PowerPoint), Jackie Davies (UK Science Lead), 2018 Solar Missions Forum
^ PUNCH: From Observations to Science, PUNCH Home site, Southwest Research Institute (SwRI)], Accessed on 24 November 2020
^ PUNCH: Heritage, PUNCH Home site, Southwest Research Institute (SwRI)], Accessed on 21 June 2019

[nasa-20210727-1] Jump up to: ^a ^b Frazier, Sarah (27 July 2021). "NASA's PUNCH Mission to Study the Sun's Environment Moves Toward Launch". NASA. Retrieved 28 July 2021.

[A-Now_Haynes2019-2] Jump up to: ^a ^b ^c ^d NASA selects PUNCH, a new mission to study the Sun, Korey Haynes, Astronomy Now, 21 June 2019

[Selected_June2019-3] Press Release from: Southwest Research Institute (SwRI), 20 June 2019

[Selected-4] Jump up to: ^a ^b ^c ^d ^e NASA Selects Missions to Study Our Sun, Its Effects on Space Weather, NASA, 20 June 2019

[PUNCH_Objectives-5] Jump up to: ^a ^b PUNCH: Objectives, Southwest Research Institute (SwRI), Accessed on 24 November 2020

[6] PUNCH: What is Heliophysics?, Southwest Research Institute (SwRI), Accessed on 24 November 2020

[7] PUNCH: The Mission Southwest Research Institute (SwRI) Accessed on 24 November 2020

[Davies_2018_PowerPoint-8] Jump up to: ^a ^b "The PUNCH Mission" (PowerPoint), Jackie Davies (UK Science Lead), 2018 Solar Missions Forum

[9] PUNCH: From Observations to Science, PUNCH Home site, Southwest Research Institute (SwRI)], Accessed on 24 November 2020

[10] PUNCH: Heritage, PUNCH Home site, Southwest Research Institute (SwRI)], Accessed on 21 June 2019

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

[9]

[10]

show v t Solar space missions
Current	ACE (since 1997) DSCOVR (since 2015) Hinode (Solar-B) (since 2006) IRIS (since 2013) Parker Solar Probe (since 2018) SOHO (since 1995) SDO (since 2010) Solar Orbiter (since 2020) STEREO (since 2006) Wind (since 1994)
Past	Apollo Telescope Mount EURECA ESRO 2B Genesis GOES 13 Helios Hinotori (Astro-A) IMP-8 ISEE-1 ISEE-2 ICE / ISEE-3 Koronas-Foton MinXSS1 MinXSS2 Orbiting Solar Observatory OSO 1 OSO 2/OSO B OSO 3 OSO 4 OSO 5 OSO 6 OSO 7 OSO 8 Solwind PICARD Pioneer 5 Pioneer 6, 7, 8 and 9 PROBA-2 RHESSI SOLAR SolarMax Spartan 201 TRACE Ulysses Yohkoh (Solar-A)
Planned	(2021) Aditya-L1 (2022) PROBA-3 (2022) PUNCH (2023) TRACERS (2023) SWFO-L1 (2025) Solar Cruiser (2025)
Proposed	ADAHELI Lagrange SETH Sundiver
Cancelled	AOSO Pioneer H OSO J OSO K Solar Sentinels
Lost	Pioneer E OSO C
Sun-Earth	SORCE SXI ACRIMSAT
List of heliophysics missions