The Atacama Cosmology Telescope: A Search for Planet 9

Sigurd Naess; Simone Aiola; Nick Battaglia; Richard J. Bond; Erminia Calabrese; Steve K. Choi; Nicholas F. Cothard; Mark Halpern; J. Colin Hill; Brian J. Koopman; Mark Devlin; Jeff McMahon; Simon Dicker; Adriaan J. Duivenvoorden; Jo Dunkley; Valentina Fanfani; Simone Ferraro; Patricio A. Gallardo; Yilun Guan; Dongwon Han; Matthew Hasselfield; Adam D. Hincks; Kevin Huffenberger; Arthur B. Kosowsky; Thibaut Louis; Amanda Macinnis; Mathew S. Madhavacheril; Federico Nati; Michael D. Niemack; Lyman Page; Maria Salatino; Emmanuel Schaan; John Orlowski-Scherer; Alessandro Schillaci; Benjamin Schmitt; Neelima Sehgal; Cristóbal Sifón; Suzanne Staggs; Alexander Van Engelen; Edward J. Wollack

doi:10.3847/1538-4357/ac2307

The Atacama Cosmology Telescope: A Search for Planet 9

Sigurd Naess, Simone Aiola, Nick Battaglia, Richard J. Bond, Erminia Calabrese, Steve K. Choi, Nicholas F. Cothard, Mark Halpern, J. Colin Hill, Brian J. Koopman, Mark Devlin, Jeff McMahon, Simon Dicker, Adriaan J. Duivenvoorden, Jo Dunkley, Valentina Fanfani, Simone Ferraro, Patricio A. Gallardo, Yilun Guan, Dongwon HanMatthew Hasselfield, Adam D. Hincks, Kevin Huffenberger, Arthur B. Kosowsky, Thibaut Louis, Amanda Macinnis, Mathew S. Madhavacheril, Federico Nati, Michael D. Niemack, Lyman Page, Maria Salatino, Emmanuel Schaan, John Orlowski-Scherer, Alessandro Schillaci, Benjamin Schmitt, Neelima Sehgal, Cristóbal Sifón, Suzanne Staggs, Alexander Van Engelen, Edward J. Wollack

Earth and Space Exploration, School of (SESE)

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

10 Scopus citations

Abstract

We use Atacama Cosmology Telescope (ACT) observations at 98 GHz (2015–2019), 150 GHz (2013–2019), and 229 GHz (2017–2019) to perform a blind shift-and-stack search for Planet 9. The search explores distances from 300 au to 2000 au and velocities up to 6.′3 per year, depending on the distance (r). For a 5 Earth-mass Planet 9 the detection limit varies from 325 au to 625 au, depending on the sky location. For a 10 Earth-mass planet the corresponding range is 425 au to 775 au. The predicted aphelion and most likely location of the planet corresponds to the shallower end of these ranges. The search covers the whole 18,000 square degrees of the ACT survey. No significant detections are found, which is used to place limits on the millimeter-wave flux density of Planet 9 over much of its orbit. Overall we eliminate roughly 17% and 9% of the parameter space for a 5 and 10 Earth-mass Planet 9, respectively. These bounds approach those of a recent INPOP19a ephemeris-based analysis, but do not exceed it. We also provide a list of the 10 strongest candidates from the search for possible follow-up. More generally, we exclude (at 95% confidence) the presence of an unknown solar system object within our survey area brighter than 4–12 mJy (depending on position) at 150 GHz with current distance 300 au < r < 600 au and heliocentric angular velocity , corresponding to low-to-moderate eccentricities. These limits worsen gradually beyond 600 au, reaching 5–15 mJy by 1500 au.

Original language	English (US)
Article number	224
Journal	Astrophysical Journal
Volume	923
Issue number	2
DOIs	https://doi.org/10.3847/1538-4357/ac2307
State	Published - Dec 20 2021

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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Naess, S., Aiola, S., Battaglia, N., Bond, R. J., Calabrese, E., Choi, S. K., Cothard, N. F., Halpern, M., Hill, J. C., Koopman, B. J., Devlin, M., McMahon, J., Dicker, S., Duivenvoorden, A. J., Dunkley, J., Fanfani, V., Ferraro, S., Gallardo, P. A., Guan, Y., ... Wollack, E. J. (2021). The Atacama Cosmology Telescope: A Search for Planet 9. Astrophysical Journal, 923(2), Article 224. https://doi.org/10.3847/1538-4357/ac2307

Naess, S, Aiola, S, Battaglia, N, Bond, RJ, Calabrese, E, Choi, SK, Cothard, NF, Halpern, M, Hill, JC, Koopman, BJ, Devlin, M, McMahon, J, Dicker, S, Duivenvoorden, AJ, Dunkley, J, Fanfani, V, Ferraro, S, Gallardo, PA, Guan, Y, Han, D, Hasselfield, M, Hincks, AD, Huffenberger, K, Kosowsky, AB, Louis, T, Macinnis, A, Madhavacheril, MS, Nati, F, Niemack, MD, Page, L, Salatino, M, Schaan, E, Orlowski-Scherer, J, Schillaci, A, Schmitt, B, Sehgal, N, Sifón, C, Staggs, S, Engelen, AV & Wollack, EJ 2021, 'The Atacama Cosmology Telescope: A Search for Planet 9', Astrophysical Journal, vol. 923, no. 2, 224. https://doi.org/10.3847/1538-4357/ac2307

@article{a52d996e863f4876a17001c1546e6360,

title = "The Atacama Cosmology Telescope: A Search for Planet 9",

abstract = "We use Atacama Cosmology Telescope (ACT) observations at 98 GHz (2015–2019), 150 GHz (2013–2019), and 229 GHz (2017–2019) to perform a blind shift-and-stack search for Planet 9. The search explores distances from 300 au to 2000 au and velocities up to 6.′3 per year, depending on the distance (r). For a 5 Earth-mass Planet 9 the detection limit varies from 325 au to 625 au, depending on the sky location. For a 10 Earth-mass planet the corresponding range is 425 au to 775 au. The predicted aphelion and most likely location of the planet corresponds to the shallower end of these ranges. The search covers the whole 18,000 square degrees of the ACT survey. No significant detections are found, which is used to place limits on the millimeter-wave flux density of Planet 9 over much of its orbit. Overall we eliminate roughly 17% and 9% of the parameter space for a 5 and 10 Earth-mass Planet 9, respectively. These bounds approach those of a recent INPOP19a ephemeris-based analysis, but do not exceed it. We also provide a list of the 10 strongest candidates from the search for possible follow-up. More generally, we exclude (at 95% confidence) the presence of an unknown solar system object within our survey area brighter than 4–12 mJy (depending on position) at 150 GHz with current distance 300 au < r < 600 au and heliocentric angular velocity , corresponding to low-to-moderate eccentricities. These limits worsen gradually beyond 600 au, reaching 5–15 mJy by 1500 au.",

author = "Sigurd Naess and Simone Aiola and Nick Battaglia and Bond, {Richard J.} and Erminia Calabrese and Choi, {Steve K.} and Cothard, {Nicholas F.} and Mark Halpern and Hill, {J. Colin} and Koopman, {Brian J.} and Mark Devlin and Jeff McMahon and Simon Dicker and Duivenvoorden, {Adriaan J.} and Jo Dunkley and Valentina Fanfani and Simone Ferraro and Gallardo, {Patricio A.} and Yilun Guan and Dongwon Han and Matthew Hasselfield and Hincks, {Adam D.} and Kevin Huffenberger and Kosowsky, {Arthur B.} and Thibaut Louis and Amanda Macinnis and Madhavacheril, {Mathew S.} and Federico Nati and Niemack, {Michael D.} and Lyman Page and Maria Salatino and Emmanuel Schaan and John Orlowski-Scherer and Alessandro Schillaci and Benjamin Schmitt and Neelima Sehgal and Crist{\'o}bal Sif{\'o}n and Suzanne Staggs and Engelen, {Alexander Van} and Wollack, {Edward J.}",

year = "2021",

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day = "20",

doi = "10.3847/1538-4357/ac2307",

language = "English (US)",

volume = "923",

journal = "Astrophysical Journal",

issn = "0004-637X",

publisher = "IOP Publishing Ltd.",

number = "2",

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TY - JOUR

T1 - The Atacama Cosmology Telescope

T2 - A Search for Planet 9

AU - Naess, Sigurd

AU - Aiola, Simone

AU - Battaglia, Nick

AU - Bond, Richard J.

AU - Calabrese, Erminia

AU - Choi, Steve K.

AU - Cothard, Nicholas F.

AU - Halpern, Mark

AU - Hill, J. Colin

AU - Koopman, Brian J.

AU - Devlin, Mark

AU - McMahon, Jeff

AU - Dicker, Simon

AU - Duivenvoorden, Adriaan J.

AU - Dunkley, Jo

AU - Fanfani, Valentina

AU - Ferraro, Simone

AU - Gallardo, Patricio A.

AU - Guan, Yilun

AU - Han, Dongwon

AU - Hasselfield, Matthew

AU - Hincks, Adam D.

AU - Huffenberger, Kevin

AU - Kosowsky, Arthur B.

AU - Louis, Thibaut

AU - Macinnis, Amanda

AU - Madhavacheril, Mathew S.

AU - Nati, Federico

AU - Niemack, Michael D.

AU - Page, Lyman

AU - Salatino, Maria

AU - Schaan, Emmanuel

AU - Orlowski-Scherer, John

AU - Schillaci, Alessandro

AU - Schmitt, Benjamin

AU - Sehgal, Neelima

AU - Sifón, Cristóbal

AU - Staggs, Suzanne

AU - Engelen, Alexander Van

AU - Wollack, Edward J.

PY - 2021/12/20

Y1 - 2021/12/20

N2 - We use Atacama Cosmology Telescope (ACT) observations at 98 GHz (2015–2019), 150 GHz (2013–2019), and 229 GHz (2017–2019) to perform a blind shift-and-stack search for Planet 9. The search explores distances from 300 au to 2000 au and velocities up to 6.′3 per year, depending on the distance (r). For a 5 Earth-mass Planet 9 the detection limit varies from 325 au to 625 au, depending on the sky location. For a 10 Earth-mass planet the corresponding range is 425 au to 775 au. The predicted aphelion and most likely location of the planet corresponds to the shallower end of these ranges. The search covers the whole 18,000 square degrees of the ACT survey. No significant detections are found, which is used to place limits on the millimeter-wave flux density of Planet 9 over much of its orbit. Overall we eliminate roughly 17% and 9% of the parameter space for a 5 and 10 Earth-mass Planet 9, respectively. These bounds approach those of a recent INPOP19a ephemeris-based analysis, but do not exceed it. We also provide a list of the 10 strongest candidates from the search for possible follow-up. More generally, we exclude (at 95% confidence) the presence of an unknown solar system object within our survey area brighter than 4–12 mJy (depending on position) at 150 GHz with current distance 300 au < r < 600 au and heliocentric angular velocity , corresponding to low-to-moderate eccentricities. These limits worsen gradually beyond 600 au, reaching 5–15 mJy by 1500 au.

AB - We use Atacama Cosmology Telescope (ACT) observations at 98 GHz (2015–2019), 150 GHz (2013–2019), and 229 GHz (2017–2019) to perform a blind shift-and-stack search for Planet 9. The search explores distances from 300 au to 2000 au and velocities up to 6.′3 per year, depending on the distance (r). For a 5 Earth-mass Planet 9 the detection limit varies from 325 au to 625 au, depending on the sky location. For a 10 Earth-mass planet the corresponding range is 425 au to 775 au. The predicted aphelion and most likely location of the planet corresponds to the shallower end of these ranges. The search covers the whole 18,000 square degrees of the ACT survey. No significant detections are found, which is used to place limits on the millimeter-wave flux density of Planet 9 over much of its orbit. Overall we eliminate roughly 17% and 9% of the parameter space for a 5 and 10 Earth-mass Planet 9, respectively. These bounds approach those of a recent INPOP19a ephemeris-based analysis, but do not exceed it. We also provide a list of the 10 strongest candidates from the search for possible follow-up. More generally, we exclude (at 95% confidence) the presence of an unknown solar system object within our survey area brighter than 4–12 mJy (depending on position) at 150 GHz with current distance 300 au < r < 600 au and heliocentric angular velocity , corresponding to low-to-moderate eccentricities. These limits worsen gradually beyond 600 au, reaching 5–15 mJy by 1500 au.

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DO - 10.3847/1538-4357/ac2307

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SN - 0004-637X

VL - 923

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 2

M1 - 224

ER -

The Atacama Cosmology Telescope: A Search for Planet 9

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