OSIRIS-APEX: An OSIRIS-REx Extended Mission to Asteroid Apophis

Daniella N. DellaGiustina; Michael C. Nolan; Anjani T. Polit; Michael C. Moreau; Dathon R. Golish; Amy A. Simon; Coralie D. Adam; Peter G. Antreasian; Ronald Louis Ballouz; Olivier S. Barnouin; Kris J. Becker; Carina A. Bennett; Richard P. Binzel; Brent J. Bos; Richard Burns; Nayessda Castro; Steven R. Chesley; Philip R. Christensen; M. Katherine Crombie; Michael G. Daly; R. Terik Daly; Heather L. Enos; Davide Farnocchia; Sandra Freund Kasper; Rose Garcia; Kenneth M. Getzandanner; Scott D. Guzewich; Christopher W. Haberle; Timothy Haltigin; Victoria E. Hamilton; Karl Harshman; Noble Hatten; Kyle M. Hughes; Erica R. Jawin; Hannah H. Kaplan; Dante S. Lauretta; Jason M. Leonard; Andrew H. Levine; Andrew J. Liounis; Christian W. May; Laura C. Mayorga; Lillian Nguyen; Lynnae C. Quick; Dennis C. Reuter; Edgard Rivera-Valentín; Bashar Rizk; Heather L. Roper; Andrew J. Ryan; Brian Sutter; Mathilde M. Westermann; Daniel R. Wibben; Bobby G. Williams; Kenneth Williams; C. W.V. Wolner

doi:10.3847/PSJ/acf75e

OSIRIS-APEX: An OSIRIS-REx Extended Mission to Asteroid Apophis

Daniella N. DellaGiustina, Michael C. Nolan, Anjani T. Polit, Michael C. Moreau, Dathon R. Golish, Amy A. Simon, Coralie D. Adam, Peter G. Antreasian, Ronald Louis Ballouz, Olivier S. Barnouin, Kris J. Becker, Carina A. Bennett, Richard P. Binzel, Brent J. Bos, Richard Burns, Nayessda Castro, Steven R. Chesley, Philip R. Christensen, M. Katherine Crombie, Michael G. DalyR. Terik Daly, Heather L. Enos, Davide Farnocchia, Sandra Freund Kasper, Rose Garcia, Kenneth M. Getzandanner, Scott D. Guzewich, Christopher W. Haberle, Timothy Haltigin, Victoria E. Hamilton, Karl Harshman, Noble Hatten, Kyle M. Hughes, Erica R. Jawin, Hannah H. Kaplan, Dante S. Lauretta, Jason M. Leonard, Andrew H. Levine, Andrew J. Liounis, Christian W. May, Laura C. Mayorga, Lillian Nguyen, Lynnae C. Quick, Dennis C. Reuter, Edgard Rivera-Valentín, Bashar Rizk, Heather L. Roper, Andrew J. Ryan, Brian Sutter, Mathilde M. Westermann, Daniel R. Wibben, Bobby G. Williams, Kenneth Williams, C. W.V. Wolner

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

The Origins, Spectral Interpretation, Resource Identification, and Security-Regolith Explorer (OSIRIS-REx) spacecraft mission characterized and collected a sample from asteroid (101955) Bennu. After the OSIRIS-REx Sample Return Capsule released to Earth’s surface in 2023 September, the spacecraft diverted into a new orbit that encounters asteroid (99942) Apophis in 2029, enabling a second mission with the same unique capabilities: OSIRIS-Apophis Explorer (APEX). On 2029 April 13, the 340 m diameter Apophis will draw within ∼32,000 km of Earth’s surface, less than 1/10 the lunar distance. Apophis will be the largest object to approach Earth this closely in recorded history. This rare planetary encounter will alter Apophis’s orbit, will subject it to tidal forces that change its spin state, and may seismically disturb its surface. APEX will distantly observe Apophis during the Earth encounter and capture its evolution in real time, revealing the consequences of an asteroid undergoing tidal disturbance by a major planet. Beginning in 2029 July, the spacecraft’s instrument suite will begin providing high-resolution data of this “stony” asteroid—advancing knowledge of these objects and their connection to meteorites. Near the mission’s end, APEX will use its thrusters to excavate regolith, a technique demonstrated at Bennu. Observations before, during, and after excavation will provide insight into the subsurface and material properties of stony asteroids. Furthermore, Apophis’s material and structure have critical implications for planetary defense.

Original language	English (US)
Article number	198
Journal	Planetary Science Journal
Volume	4
Issue number	10
DOIs	https://doi.org/10.3847/PSJ/acf75e
State	Published - Oct 1 2023

ASJC Scopus subject areas

Astronomy and Astrophysics
Geophysics
Earth and Planetary Sciences (miscellaneous)
Space and Planetary Science

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10.3847/PSJ/acf75e

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DellaGiustina, D. N., Nolan, M. C., Polit, A. T., Moreau, M. C., Golish, D. R., Simon, A. A., Adam, C. D., Antreasian, P. G., Ballouz, R. L., Barnouin, O. S., Becker, K. J., Bennett, C. A., Binzel, R. P., Bos, B. J., Burns, R., Castro, N., Chesley, S. R., Christensen, P. R., Crombie, M. K., ... Wolner, C. W. V. (2023). OSIRIS-APEX: An OSIRIS-REx Extended Mission to Asteroid Apophis. Planetary Science Journal, 4(10), Article 198. https://doi.org/10.3847/PSJ/acf75e

DellaGiustina, DN, Nolan, MC, Polit, AT, Moreau, MC, Golish, DR, Simon, AA, Adam, CD, Antreasian, PG, Ballouz, RL, Barnouin, OS, Becker, KJ, Bennett, CA, Binzel, RP, Bos, BJ, Burns, R, Castro, N, Chesley, SR, Christensen, PR, Crombie, MK, Daly, MG, Daly, RT, Enos, HL, Farnocchia, D, Freund Kasper, S, Garcia, R, Getzandanner, KM, Guzewich, SD, Haberle, CW, Haltigin, T, Hamilton, VE, Harshman, K, Hatten, N, Hughes, KM, Jawin, ER, Kaplan, HH, Lauretta, DS, Leonard, JM, Levine, AH, Liounis, AJ, May, CW, Mayorga, LC, Nguyen, L, Quick, LC, Reuter, DC, Rivera-Valentín, E, Rizk, B, Roper, HL, Ryan, AJ, Sutter, B, Westermann, MM, Wibben, DR, Williams, BG, Williams, K & Wolner, CWV 2023, 'OSIRIS-APEX: An OSIRIS-REx Extended Mission to Asteroid Apophis', Planetary Science Journal, vol. 4, no. 10, 198. https://doi.org/10.3847/PSJ/acf75e

@article{accb82537a2249a2a0ddb7f9a03de5df,

title = "OSIRIS-APEX: An OSIRIS-REx Extended Mission to Asteroid Apophis",

abstract = "The Origins, Spectral Interpretation, Resource Identification, and Security-Regolith Explorer (OSIRIS-REx) spacecraft mission characterized and collected a sample from asteroid (101955) Bennu. After the OSIRIS-REx Sample Return Capsule released to Earth{\textquoteright}s surface in 2023 September, the spacecraft diverted into a new orbit that encounters asteroid (99942) Apophis in 2029, enabling a second mission with the same unique capabilities: OSIRIS-Apophis Explorer (APEX). On 2029 April 13, the 340 m diameter Apophis will draw within ∼32,000 km of Earth{\textquoteright}s surface, less than 1/10 the lunar distance. Apophis will be the largest object to approach Earth this closely in recorded history. This rare planetary encounter will alter Apophis{\textquoteright}s orbit, will subject it to tidal forces that change its spin state, and may seismically disturb its surface. APEX will distantly observe Apophis during the Earth encounter and capture its evolution in real time, revealing the consequences of an asteroid undergoing tidal disturbance by a major planet. Beginning in 2029 July, the spacecraft{\textquoteright}s instrument suite will begin providing high-resolution data of this “stony” asteroid—advancing knowledge of these objects and their connection to meteorites. Near the mission{\textquoteright}s end, APEX will use its thrusters to excavate regolith, a technique demonstrated at Bennu. Observations before, during, and after excavation will provide insight into the subsurface and material properties of stony asteroids. Furthermore, Apophis{\textquoteright}s material and structure have critical implications for planetary defense.",

author = "DellaGiustina, {Daniella N.} and Nolan, {Michael C.} and Polit, {Anjani T.} and Moreau, {Michael C.} and Golish, {Dathon R.} and Simon, {Amy A.} and Adam, {Coralie D.} and Antreasian, {Peter G.} and Ballouz, {Ronald Louis} and Barnouin, {Olivier S.} and Becker, {Kris J.} and Bennett, {Carina A.} and Binzel, {Richard P.} and Bos, {Brent J.} and Richard Burns and Nayessda Castro and Chesley, {Steven R.} and Christensen, {Philip R.} and Crombie, {M. Katherine} and Daly, {Michael G.} and Daly, {R. Terik} and Enos, {Heather L.} and Davide Farnocchia and {Freund Kasper}, Sandra and Rose Garcia and Getzandanner, {Kenneth M.} and Guzewich, {Scott D.} and Haberle, {Christopher W.} and Timothy Haltigin and Hamilton, {Victoria E.} and Karl Harshman and Noble Hatten and Hughes, {Kyle M.} and Jawin, {Erica R.} and Kaplan, {Hannah H.} and Lauretta, {Dante S.} and Leonard, {Jason M.} and Levine, {Andrew H.} and Liounis, {Andrew J.} and May, {Christian W.} and Mayorga, {Laura C.} and Lillian Nguyen and Quick, {Lynnae C.} and Reuter, {Dennis C.} and Edgard Rivera-Valent{\'i}n and Bashar Rizk and Roper, {Heather L.} and Ryan, {Andrew J.} and Brian Sutter and Westermann, {Mathilde M.} and Wibben, {Daniel R.} and Williams, {Bobby G.} and Kenneth Williams and Wolner, {C. W.V.}",

note = "Publisher Copyright: {\textcopyright} 2023. The Author(s). Published by the American Astronomical Society.",

year = "2023",

month = oct,

day = "1",

doi = "10.3847/PSJ/acf75e",

language = "English (US)",

volume = "4",

journal = "Planetary Science Journal",

issn = "2632-3338",

publisher = "IOP Publishing Ltd.",

number = "10",

}

TY - JOUR

T1 - OSIRIS-APEX

T2 - An OSIRIS-REx Extended Mission to Asteroid Apophis

AU - DellaGiustina, Daniella N.

AU - Nolan, Michael C.

AU - Polit, Anjani T.

AU - Moreau, Michael C.

AU - Golish, Dathon R.

AU - Simon, Amy A.

AU - Adam, Coralie D.

AU - Antreasian, Peter G.

AU - Ballouz, Ronald Louis

AU - Barnouin, Olivier S.

AU - Becker, Kris J.

AU - Bennett, Carina A.

AU - Binzel, Richard P.

AU - Bos, Brent J.

AU - Burns, Richard

AU - Castro, Nayessda

AU - Chesley, Steven R.

AU - Christensen, Philip R.

AU - Crombie, M. Katherine

AU - Daly, Michael G.

AU - Daly, R. Terik

AU - Enos, Heather L.

AU - Farnocchia, Davide

AU - Freund Kasper, Sandra

AU - Garcia, Rose

AU - Getzandanner, Kenneth M.

AU - Guzewich, Scott D.

AU - Haberle, Christopher W.

AU - Haltigin, Timothy

AU - Hamilton, Victoria E.

AU - Harshman, Karl

AU - Hatten, Noble

AU - Hughes, Kyle M.

AU - Jawin, Erica R.

AU - Kaplan, Hannah H.

AU - Lauretta, Dante S.

AU - Leonard, Jason M.

AU - Levine, Andrew H.

AU - Liounis, Andrew J.

AU - May, Christian W.

AU - Mayorga, Laura C.

AU - Nguyen, Lillian

AU - Quick, Lynnae C.

AU - Reuter, Dennis C.

AU - Rivera-Valentín, Edgard

AU - Rizk, Bashar

AU - Roper, Heather L.

AU - Ryan, Andrew J.

AU - Sutter, Brian

AU - Westermann, Mathilde M.

AU - Wibben, Daniel R.

AU - Williams, Bobby G.

AU - Williams, Kenneth

AU - Wolner, C. W.V.

PY - 2023/10/1

Y1 - 2023/10/1

N2 - The Origins, Spectral Interpretation, Resource Identification, and Security-Regolith Explorer (OSIRIS-REx) spacecraft mission characterized and collected a sample from asteroid (101955) Bennu. After the OSIRIS-REx Sample Return Capsule released to Earth’s surface in 2023 September, the spacecraft diverted into a new orbit that encounters asteroid (99942) Apophis in 2029, enabling a second mission with the same unique capabilities: OSIRIS-Apophis Explorer (APEX). On 2029 April 13, the 340 m diameter Apophis will draw within ∼32,000 km of Earth’s surface, less than 1/10 the lunar distance. Apophis will be the largest object to approach Earth this closely in recorded history. This rare planetary encounter will alter Apophis’s orbit, will subject it to tidal forces that change its spin state, and may seismically disturb its surface. APEX will distantly observe Apophis during the Earth encounter and capture its evolution in real time, revealing the consequences of an asteroid undergoing tidal disturbance by a major planet. Beginning in 2029 July, the spacecraft’s instrument suite will begin providing high-resolution data of this “stony” asteroid—advancing knowledge of these objects and their connection to meteorites. Near the mission’s end, APEX will use its thrusters to excavate regolith, a technique demonstrated at Bennu. Observations before, during, and after excavation will provide insight into the subsurface and material properties of stony asteroids. Furthermore, Apophis’s material and structure have critical implications for planetary defense.

AB - The Origins, Spectral Interpretation, Resource Identification, and Security-Regolith Explorer (OSIRIS-REx) spacecraft mission characterized and collected a sample from asteroid (101955) Bennu. After the OSIRIS-REx Sample Return Capsule released to Earth’s surface in 2023 September, the spacecraft diverted into a new orbit that encounters asteroid (99942) Apophis in 2029, enabling a second mission with the same unique capabilities: OSIRIS-Apophis Explorer (APEX). On 2029 April 13, the 340 m diameter Apophis will draw within ∼32,000 km of Earth’s surface, less than 1/10 the lunar distance. Apophis will be the largest object to approach Earth this closely in recorded history. This rare planetary encounter will alter Apophis’s orbit, will subject it to tidal forces that change its spin state, and may seismically disturb its surface. APEX will distantly observe Apophis during the Earth encounter and capture its evolution in real time, revealing the consequences of an asteroid undergoing tidal disturbance by a major planet. Beginning in 2029 July, the spacecraft’s instrument suite will begin providing high-resolution data of this “stony” asteroid—advancing knowledge of these objects and their connection to meteorites. Near the mission’s end, APEX will use its thrusters to excavate regolith, a technique demonstrated at Bennu. Observations before, during, and after excavation will provide insight into the subsurface and material properties of stony asteroids. Furthermore, Apophis’s material and structure have critical implications for planetary defense.

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JF - Planetary Science Journal

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M1 - 198

ER -

OSIRIS-APEX: An OSIRIS-REx Extended Mission to Asteroid Apophis

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