The CASTOR mission

Patrick Côté; Tyrone E. Woods; John B. Hutchings; Jason D. Rhodes; Rubén Sánchez-Janssen; Alan D. Scott; John Pazder; Melissa Amenouche; Michael Balogh; Simon Blouin; Alain Cournoyer; Maria R. Drout; Nick Kuzmin; Katherine J. Mack; Laura Ferrarese; Wesley C. Fraser; Sarah C. Gallagher; Frédéric Grandmont; Daryl Haggard; Paul Harrison; Vincent Hénault-Brunet; J. J. Kavelaars; Viraja Khatu; Joel C. Roediger; Jason Rowe; Marcin Sawicki; Jesper Skottfelt; Matt Taylor; Ludo van Waerbeke; Laurie Amen; Dhananjhay Bansal; Martin Bergeron; Toby Brown; Greg Burley; Hum Chand; Isaac Cheng; Ryan Cloutier; Nolan Dickson; Oleg Djazovski; Ivana Damjanov; James Doherty; Kyle Finner; Macarena García Del Valle Espinosa; Jennifer Glover; Ana I. Gómez de Castro; Or Graur; Tim Hardy; Michelle Kao; Denis Leahy; Deborah Lokhorst; Alex I. Malz; Allison Man; Madeline A. Marshall; Sean McGee; Ryan McKenzie; Kai Michaud; Surhud S. More; David Morris; Patrick W. Morris; Thibaud Moutard; Wasi Naqvi; Matt Nicholl; Gaël Noirot; M. S. Oey; Cyrielle Opitom; Samir Salim; Bryan R. Scott; Charles A. Shapiro; Daniel Stern; Annapurni Subramaniam; David Thilke; Ivan Wevers; Dmitri Vorobiev; L. Y. Aaron Yung; Frédéric Zamkotsian; Suzanne Aigrain; Anahita Alavi; Martin Barstow; Peter Bartosik; Hadleigh Bluhm; Jo Bovy; Peter Cameron; Raymond G. Carlberg; Jessie L. Christiansen; Yuyang Chen; Paul Crowther; Kristen Dage; Aaron L. Dotter; Patrick Dufour; Jean Dupuis; Ben Dryer; Angaraj Duara; Gwendolyn M. Eadie; Marielle R. Eduardo; Vincente Estrada-Carpenter; Sébastien Fabbro; Andreas Faisst; Nicole M. Ford; Morgan Fraser; Boris T. Gaensicke; Shashkiran Ganesh; Poshak Gandhi; Melissa L. Graham; Rebecca Hamel; Martin Hellmich; John Hennessy; Kaitlyn Hessel; Jeremy Heyl; Catherine Heymans; Yashar Hezaveh; Renee Hlozek; Michael E. Hoenk; Andrew Holland; Eric Huff; Ian Hutchinson; Ikuru Iwata; April D. Jewell; Doug Johnstone; Maia Jones; Todd Jones; Dustin Lang; Jon Lapington; Justin Larivière; Cameron Lawlor-Forsyth; Denis Laurin; Charles Lee; Ronan Legin; Ting S. Li; Sungsoon Lim; Bethany Ludwig; Matt Kozun; Vivek M.; Robert Mann; Alan W. McConnachie; Evan McDonough; Stanimir Metchev; David R. Miller; Takashi Moriya; Cameron Morgan; Julio Navarro; Yaël Nazé; Shouleh Nikzad; Vivek Oad; Nathalie Ouellette; Emily K. Pass; Will J. Percival; Laurence Perreault Levasseur; Joe Postma; Nayyer Raza; Gordon T. Richards; Harvey Richer; Carmelle Robert; Erik Rosolowsky; John J. Ruan; Sarah Rugheimer; Samar Safi-Harb; Kanak Saha; Vicky Scowcroft; Federico Sestito; Himanshu Sharma; James Sikora; Gregory R. Sivakoff; Thirupathi Sivarani; Patrick Smith; Warren Soh; Robert Sorba; Smitha Subramanian; Hossen Teimoorinia; Harry I. Teplitz; Shaylin Thadani; Shavon Thadani; Aaron Tohuvavohu; Kim A. Venn; Nicholas Vieira; Jeremy J. Webb; Paul Wiegert; Ryan Wierckx; Yanqin Wu; Jade Yeung; Sukyoung K. Yi

doi:10.1117/1.JATIS.11.4.042202

The CASTOR mission

Patrick Côté, Tyrone E. Woods, John B. Hutchings, Jason D. Rhodes, Rubén Sánchez-Janssen, Alan D. Scott, John Pazder, Melissa Amenouche, Michael Balogh, Simon Blouin, Alain Cournoyer, Maria R. Drout, Nick Kuzmin, Katherine J. Mack, Laura Ferrarese, Wesley C. Fraser, Sarah C. Gallagher, Frédéric Grandmont, Daryl Haggard, Paul HarrisonVincent Hénault-Brunet, J. J. Kavelaars, Viraja Khatu, Joel C. Roediger, Jason Rowe, Marcin Sawicki, Jesper Skottfelt, Matt Taylor, Ludo van Waerbeke, Laurie Amen, Dhananjhay Bansal, Martin Bergeron, Toby Brown, Greg Burley, Hum Chand, Isaac Cheng, Ryan Cloutier, Nolan Dickson, Oleg Djazovski, Ivana Damjanov, James Doherty, Kyle Finner, Macarena García Del Valle Espinosa, Jennifer Glover, Ana I. Gómez de Castro, Or Graur, Tim Hardy, Michelle Kao, Denis Leahy, Deborah Lokhorst, Alex I. Malz, Allison Man, Madeline A. Marshall, Sean McGee, Ryan McKenzie, Kai Michaud, Surhud S. More, David Morris, Patrick W. Morris, Thibaud Moutard, Wasi Naqvi, Matt Nicholl, Gaël Noirot, M. S. Oey, Cyrielle Opitom, Samir Salim, Bryan R. Scott, Charles A. Shapiro, Daniel Stern, Annapurni Subramaniam, David Thilke, Ivan Wevers, Dmitri Vorobiev, L. Y. Aaron Yung, Frédéric Zamkotsian, Suzanne Aigrain, Anahita Alavi, Martin Barstow, Peter Bartosik, Hadleigh Bluhm, Jo Bovy, Peter Cameron, Raymond G. Carlberg, Jessie L. Christiansen, Yuyang Chen, Paul Crowther, Kristen Dage, Aaron L. Dotter, Patrick Dufour, Jean Dupuis, Ben Dryer, Angaraj Duara, Gwendolyn M. Eadie, Marielle R. Eduardo, Vincente Estrada-Carpenter, Sébastien Fabbro, Andreas Faisst, Nicole M. Ford, Morgan Fraser, Boris T. Gaensicke, Shashkiran Ganesh, Poshak Gandhi, Melissa L. Graham, Rebecca Hamel, Martin Hellmich, John Hennessy, Kaitlyn Hessel, Jeremy Heyl, Catherine Heymans, Yashar Hezaveh, Renee Hlozek, Michael E. Hoenk, Andrew Holland, Eric Huff, Ian Hutchinson, Ikuru Iwata, April D. Jewell, Doug Johnstone, Maia Jones, Todd Jones, Dustin Lang, Jon Lapington, Justin Larivière, Cameron Lawlor-Forsyth, Denis Laurin, Charles Lee, Ronan Legin, Ting S. Li, Sungsoon Lim, Bethany Ludwig, Matt Kozun, Vivek M., Robert Mann, Alan W. McConnachie, Evan McDonough, Stanimir Metchev, David R. Miller, Takashi Moriya, Cameron Morgan, Julio Navarro, Yaël Nazé, Shouleh Nikzad, Vivek Oad, Nathalie Ouellette, Emily K. Pass, Will J. Percival, Laurence Perreault Levasseur, Joe Postma, Nayyer Raza, Gordon T. Richards, Harvey Richer, Carmelle Robert, Erik Rosolowsky, John J. Ruan, Sarah Rugheimer, Samar Safi-Harb, Kanak Saha, Vicky Scowcroft, Federico Sestito, Himanshu Sharma, James Sikora, Gregory R. Sivakoff, Thirupathi Sivarani, Patrick Smith, Warren Soh, Robert Sorba, Smitha Subramanian, Hossen Teimoorinia, Harry I. Teplitz, Shaylin Thadani, Shavon Thadani, Aaron Tohuvavohu, Kim A. Venn, Nicholas Vieira, Jeremy J. Webb, Paul Wiegert, Ryan Wierckx, Yanqin Wu, Jade Yeung, Sukyoung K. Yi

Institute of Cosmology & Gravitation

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

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Abstract

CASTOR is a proposed wide-field (30′×30′=0.25deg2), high-resolution (FWHM∼0.15′′), 1-m-diameter space telescope that is under development by the Canadian Space Agency and the National Research Council of Canada. Optimized for UV/blue-optical wavelengths, the telescope uses dichroics to enable imaging in three channels (and up to five bands) that cover the 0.15 to 0.55μm spectral region, simultaneously. CASTOR will also feature low- and low-medium-resolution spectroscopic capabilities through the use of a deployable grism for low-resolution (R≲420) slit-less spectroscopy in its UV and u channels, and low-medium-resolution R∼1400 multi-object spectroscopy in a parallel field using a digital micro-mirror device. High-speed, precision photometry will be possible using dedicated CMOS detectors in each of its three channels. We present an overview of the mission, including the optical design, instruments and detectors, payload layout, satellite bus, orbit, and ground segment. We describe the mission’s scientific capabilities and expected place within the astronomical landscape in the 2030s. The 5-year lifetime is baselined on a combination of legacy surveys, guest observer programs, and target-of-opportunity science. We summarize scientific plans for the mission in each of eight fields: cosmology, time domain and multi-messenger science, active galactic nuclei, galaxies, near-field cosmology, stellar astrophysics, exoplanets, and solar system studies. We conclude by describing ongoing development efforts, highlighting areas of particular relevance for NASA’s Habitable Worlds Observatory.

Original language	English
Article number	042202
Number of pages	37
Journal	Journal of Astronomical Telescopes, Instruments, and Systems
Volume	11
Issue number	04
DOIs	https://doi.org/10.1117/1.JATIS.11.4.042202
Publication status	Published - 14 May 2025

Keywords

ultraviolet
instrumentation
space vehicles
surveys
telescopes

Access to Document

10.1117/1.JATIS.11.4.042202

The CASTOR missionFinal published version, 19.1 MBLicence: CC BY

CASTOR Bilateral Development
Graur, O. (PI)
1/01/23 → 30/06/23
Project: Innovation

Cite this

Côté, P., Woods, T. E., Hutchings, J. B., Rhodes, J. D., Sánchez-Janssen, R., Scott, A. D., Pazder, J., Amenouche, M., Balogh, M., Blouin, S., Cournoyer, A., Drout, M. R., Kuzmin, N., Mack, K. J., Ferrarese, L., Fraser, W. C., Gallagher, S. C., Grandmont, F., Haggard, D., ... Yi, S. K. (2025). The CASTOR mission. Journal of Astronomical Telescopes, Instruments, and Systems, 11(04), Article 042202. https://doi.org/10.1117/1.JATIS.11.4.042202

@article{695abd7fd5814500932c453f21172255,

title = "The CASTOR mission",

abstract = "CASTOR is a proposed wide-field (30′×30′=0.25deg2), high-resolution (FWHM∼0.15′′), 1-m-diameter space telescope that is under development by the Canadian Space Agency and the National Research Council of Canada. Optimized for UV/blue-optical wavelengths, the telescope uses dichroics to enable imaging in three channels (and up to five bands) that cover the 0.15 to 0.55μm spectral region, simultaneously. CASTOR will also feature low- and low-medium-resolution spectroscopic capabilities through the use of a deployable grism for low-resolution (R≲420) slit-less spectroscopy in its UV and u channels, and low-medium-resolution R∼1400 multi-object spectroscopy in a parallel field using a digital micro-mirror device. High-speed, precision photometry will be possible using dedicated CMOS detectors in each of its three channels. We present an overview of the mission, including the optical design, instruments and detectors, payload layout, satellite bus, orbit, and ground segment. We describe the mission{\textquoteright}s scientific capabilities and expected place within the astronomical landscape in the 2030s. The 5-year lifetime is baselined on a combination of legacy surveys, guest observer programs, and target-of-opportunity science. We summarize scientific plans for the mission in each of eight fields: cosmology, time domain and multi-messenger science, active galactic nuclei, galaxies, near-field cosmology, stellar astrophysics, exoplanets, and solar system studies. We conclude by describing ongoing development efforts, highlighting areas of particular relevance for NASA{\textquoteright}s Habitable Worlds Observatory.",

keywords = "ultraviolet, instrumentation, space vehicles, surveys, telescopes",

author = "Patrick C{\^o}t{\'e} and Woods, \{Tyrone E.\} and Hutchings, \{John B.\} and Rhodes, \{Jason D.\} and Rub{\'e}n S{\'a}nchez-Janssen and Scott, \{Alan D.\} and John Pazder and Melissa Amenouche and Michael Balogh and Simon Blouin and Alain Cournoyer and Drout, \{Maria R.\} and Nick Kuzmin and Mack, \{Katherine J.\} and Laura Ferrarese and Fraser, \{Wesley C.\} and Gallagher, \{Sarah C.\} and Fr{\'e}d{\'e}ric Grandmont and Daryl Haggard and Paul Harrison and Vincent H{\'e}nault-Brunet and Kavelaars, \{J. J.\} and Viraja Khatu and Roediger, \{Joel C.\} and Jason Rowe and Marcin Sawicki and Jesper Skottfelt and Matt Taylor and \{van Waerbeke\}, Ludo and Laurie Amen and Dhananjhay Bansal and Martin Bergeron and Toby Brown and Greg Burley and Hum Chand and Isaac Cheng and Ryan Cloutier and Nolan Dickson and Oleg Djazovski and Ivana Damjanov and James Doherty and Kyle Finner and \{Del Valle Espinosa\}, \{Macarena Garc{\'i}a\} and Jennifer Glover and \{G{\'o}mez de Castro\}, \{Ana I.\} and Or Graur and Tim Hardy and Michelle Kao and Denis Leahy and Deborah Lokhorst and Malz, \{Alex I.\} and Allison Man and Marshall, \{Madeline A.\} and Sean McGee and Ryan McKenzie and Kai Michaud and More, \{Surhud S.\} and David Morris and Morris, \{Patrick W.\} and Thibaud Moutard and Wasi Naqvi and Matt Nicholl and Ga{\"e}l Noirot and Oey, \{M. S.\} and Cyrielle Opitom and Samir Salim and Scott, \{Bryan R.\} and Shapiro, \{Charles A.\} and Daniel Stern and Annapurni Subramaniam and David Thilke and Ivan Wevers and Dmitri Vorobiev and \{Aaron Yung\}, \{L. Y.\} and Fr{\'e}d{\'e}ric Zamkotsian and Suzanne Aigrain and Anahita Alavi and Martin Barstow and Peter Bartosik and Hadleigh Bluhm and Jo Bovy and Peter Cameron and Carlberg, \{Raymond G.\} and Christiansen, \{Jessie L.\} and Yuyang Chen and Paul Crowther and Kristen Dage and Dotter, \{Aaron L.\} and Patrick Dufour and Jean Dupuis and Ben Dryer and Angaraj Duara and Eadie, \{Gwendolyn M.\} and Eduardo, \{Marielle R.\} and Vincente Estrada-Carpenter and S{\'e}bastien Fabbro and Andreas Faisst and Ford, \{Nicole M.\} and Morgan Fraser and Gaensicke, \{Boris T.\} and Shashkiran Ganesh and Poshak Gandhi and Graham, \{Melissa L.\} and Rebecca Hamel and Martin Hellmich and John Hennessy and Kaitlyn Hessel and Jeremy Heyl and Catherine Heymans and Yashar Hezaveh and Renee Hlozek and Hoenk, \{Michael E.\} and Andrew Holland and Eric Huff and Ian Hutchinson and Ikuru Iwata and Jewell, \{April D.\} and Doug Johnstone and Maia Jones and Todd Jones and Dustin Lang and Jon Lapington and Justin Larivi{\`e}re and Cameron Lawlor-Forsyth and Denis Laurin and Charles Lee and Ronan Legin and Li, \{Ting S.\} and Sungsoon Lim and Bethany Ludwig and Matt Kozun and Vivek M. and Robert Mann and McConnachie, \{Alan W.\} and Evan McDonough and Stanimir Metchev and Miller, \{David R.\} and Takashi Moriya and Cameron Morgan and Julio Navarro and Ya{\"e}l Naz{\'e} and Shouleh Nikzad and Vivek Oad and Nathalie Ouellette and Pass, \{Emily K.\} and Percival, \{Will J.\} and Levasseur, \{Laurence Perreault\} and Joe Postma and Nayyer Raza and Richards, \{Gordon T.\} and Harvey Richer and Carmelle Robert and Erik Rosolowsky and Ruan, \{John J.\} and Sarah Rugheimer and Samar Safi-Harb and Kanak Saha and Vicky Scowcroft and Federico Sestito and Himanshu Sharma and James Sikora and Sivakoff, \{Gregory R.\} and Thirupathi Sivarani and Patrick Smith and Warren Soh and Robert Sorba and Smitha Subramanian and Hossen Teimoorinia and Teplitz, \{Harry I.\} and Shaylin Thadani and Shavon Thadani and Aaron Tohuvavohu and Venn, \{Kim A.\} and Nicholas Vieira and Webb, \{Jeremy J.\} and Paul Wiegert and Ryan Wierckx and Yanqin Wu and Jade Yeung and Yi, \{Sukyoung K.\}",

year = "2025",

month = may,

day = "14",

doi = "10.1117/1.JATIS.11.4.042202",

language = "English",

volume = "11",

journal = "Journal of Astronomical Telescopes, Instruments, and Systems",

issn = "2329-4124",

publisher = "Society of Photographic Instrumentation Engineers",

number = "04",

}

Côté, P, Woods, TE, Hutchings, JB, Rhodes, JD, Sánchez-Janssen, R, Scott, AD, Pazder, J, Amenouche, M, Balogh, M, Blouin, S, Cournoyer, A, Drout, MR, Kuzmin, N, Mack, KJ, Ferrarese, L, Fraser, WC, Gallagher, SC, Grandmont, F, Haggard, D, Harrison, P, Hénault-Brunet, V, Kavelaars, JJ, Khatu, V, Roediger, JC, Rowe, J, Sawicki, M, Skottfelt, J, Taylor, M, van Waerbeke, L, Amen, L, Bansal, D, Bergeron, M, Brown, T, Burley, G, Chand, H, Cheng, I, Cloutier, R, Dickson, N, Djazovski, O, Damjanov, I, Doherty, J, Finner, K, Del Valle Espinosa, MG, Glover, J, Gómez de Castro, AI, Graur, O, Hardy, T, Kao, M, Leahy, D, Lokhorst, D, Malz, AI, Man, A, Marshall, MA, McGee, S, McKenzie, R, Michaud, K, More, SS, Morris, D, Morris, PW, Moutard, T, Naqvi, W, Nicholl, M, Noirot, G, Oey, MS, Opitom, C, Salim, S, Scott, BR, Shapiro, CA, Stern, D, Subramaniam, A, Thilke, D, Wevers, I, Vorobiev, D, Aaron Yung, LY, Zamkotsian, F, Aigrain, S, Alavi, A, Barstow, M, Bartosik, P, Bluhm, H, Bovy, J, Cameron, P, Carlberg, RG, Christiansen, JL, Chen, Y, Crowther, P, Dage, K, Dotter, AL, Dufour, P, Dupuis, J, Dryer, B, Duara, A, Eadie, GM, Eduardo, MR, Estrada-Carpenter, V, Fabbro, S, Faisst, A, Ford, NM, Fraser, M, Gaensicke, BT, Ganesh, S, Gandhi, P, Graham, ML, Hamel, R, Hellmich, M, Hennessy, J, Hessel, K, Heyl, J, Heymans, C, Hezaveh, Y, Hlozek, R, Hoenk, ME, Holland, A, Huff, E, Hutchinson, I, Iwata, I, Jewell, AD, Johnstone, D, Jones, M, Jones, T, Lang, D, Lapington, J, Larivière, J, Lawlor-Forsyth, C, Laurin, D, Lee, C, Legin, R, Li, TS, Lim, S, Ludwig, B, Kozun, M, M., V, Mann, R, McConnachie, AW, McDonough, E, Metchev, S, Miller, DR, Moriya, T, Morgan, C, Navarro, J, Nazé, Y, Nikzad, S, Oad, V, Ouellette, N, Pass, EK, Percival, WJ, Levasseur, LP, Postma, J, Raza, N, Richards, GT, Richer, H, Robert, C, Rosolowsky, E, Ruan, JJ, Rugheimer, S, Safi-Harb, S, Saha, K, Scowcroft, V, Sestito, F, Sharma, H, Sikora, J, Sivakoff, GR, Sivarani, T, Smith, P, Soh, W, Sorba, R, Subramanian, S, Teimoorinia, H, Teplitz, HI, Thadani, S, Thadani, S, Tohuvavohu, A, Venn, KA, Vieira, N, Webb, JJ, Wiegert, P, Wierckx, R, Wu, Y, Yeung, J & Yi, SK 2025, 'The CASTOR mission', Journal of Astronomical Telescopes, Instruments, and Systems, vol. 11, no. 04, 042202. https://doi.org/10.1117/1.JATIS.11.4.042202

TY - JOUR

T1 - The CASTOR mission

AU - Côté, Patrick

AU - Woods, Tyrone E.

AU - Hutchings, John B.

AU - Rhodes, Jason D.

AU - Sánchez-Janssen, Rubén

AU - Scott, Alan D.

AU - Pazder, John

AU - Amenouche, Melissa

AU - Balogh, Michael

AU - Blouin, Simon

AU - Cournoyer, Alain

AU - Drout, Maria R.

AU - Kuzmin, Nick

AU - Mack, Katherine J.

AU - Ferrarese, Laura

AU - Fraser, Wesley C.

AU - Gallagher, Sarah C.

AU - Grandmont, Frédéric

AU - Haggard, Daryl

AU - Harrison, Paul

AU - Hénault-Brunet, Vincent

AU - Kavelaars, J. J.

AU - Khatu, Viraja

AU - Roediger, Joel C.

AU - Rowe, Jason

AU - Sawicki, Marcin

AU - Skottfelt, Jesper

AU - Taylor, Matt

AU - van Waerbeke, Ludo

AU - Amen, Laurie

AU - Bansal, Dhananjhay

AU - Bergeron, Martin

AU - Brown, Toby

AU - Burley, Greg

AU - Chand, Hum

AU - Cheng, Isaac

AU - Cloutier, Ryan

AU - Dickson, Nolan

AU - Djazovski, Oleg

AU - Damjanov, Ivana

AU - Doherty, James

AU - Finner, Kyle

AU - Del Valle Espinosa, Macarena García

AU - Glover, Jennifer

AU - Gómez de Castro, Ana I.

AU - Graur, Or

AU - Hardy, Tim

AU - Kao, Michelle

AU - Leahy, Denis

AU - Lokhorst, Deborah

AU - Malz, Alex I.

AU - Man, Allison

AU - Marshall, Madeline A.

AU - McGee, Sean

AU - McKenzie, Ryan

AU - Michaud, Kai

AU - More, Surhud S.

AU - Morris, David

AU - Morris, Patrick W.

AU - Moutard, Thibaud

AU - Naqvi, Wasi

AU - Nicholl, Matt

AU - Noirot, Gaël

AU - Oey, M. S.

AU - Opitom, Cyrielle

AU - Salim, Samir

AU - Scott, Bryan R.

AU - Shapiro, Charles A.

AU - Stern, Daniel

AU - Subramaniam, Annapurni

AU - Thilke, David

AU - Wevers, Ivan

AU - Vorobiev, Dmitri

AU - Aaron Yung, L. Y.

AU - Zamkotsian, Frédéric

AU - Aigrain, Suzanne

AU - Alavi, Anahita

AU - Barstow, Martin

AU - Bartosik, Peter

AU - Bluhm, Hadleigh

AU - Bovy, Jo

AU - Cameron, Peter

AU - Carlberg, Raymond G.

AU - Christiansen, Jessie L.

AU - Chen, Yuyang

AU - Crowther, Paul

AU - Dage, Kristen

AU - Dotter, Aaron L.

AU - Dufour, Patrick

AU - Dupuis, Jean

AU - Dryer, Ben

AU - Duara, Angaraj

AU - Eadie, Gwendolyn M.

AU - Eduardo, Marielle R.

AU - Estrada-Carpenter, Vincente

AU - Fabbro, Sébastien

AU - Faisst, Andreas

AU - Ford, Nicole M.

AU - Fraser, Morgan

AU - Gaensicke, Boris T.

AU - Ganesh, Shashkiran

AU - Gandhi, Poshak

AU - Graham, Melissa L.

AU - Hamel, Rebecca

AU - Hellmich, Martin

AU - Hennessy, John

AU - Hessel, Kaitlyn

AU - Heyl, Jeremy

AU - Heymans, Catherine

AU - Hezaveh, Yashar

AU - Hlozek, Renee

AU - Hoenk, Michael E.

AU - Holland, Andrew

AU - Huff, Eric

AU - Hutchinson, Ian

AU - Iwata, Ikuru

AU - Jewell, April D.

AU - Johnstone, Doug

AU - Jones, Maia

AU - Jones, Todd

AU - Lang, Dustin

AU - Lapington, Jon

AU - Larivière, Justin

AU - Lawlor-Forsyth, Cameron

AU - Laurin, Denis

AU - Lee, Charles

AU - Legin, Ronan

AU - Li, Ting S.

AU - Lim, Sungsoon

AU - Ludwig, Bethany

AU - Kozun, Matt

AU - M., Vivek

AU - Mann, Robert

AU - McConnachie, Alan W.

AU - McDonough, Evan

AU - Metchev, Stanimir

AU - Miller, David R.

AU - Moriya, Takashi

AU - Morgan, Cameron

AU - Navarro, Julio

AU - Nazé, Yaël

AU - Nikzad, Shouleh

AU - Oad, Vivek

AU - Ouellette, Nathalie

AU - Pass, Emily K.

AU - Percival, Will J.

AU - Levasseur, Laurence Perreault

AU - Postma, Joe

AU - Raza, Nayyer

AU - Richards, Gordon T.

AU - Richer, Harvey

AU - Robert, Carmelle

AU - Rosolowsky, Erik

AU - Ruan, John J.

AU - Rugheimer, Sarah

AU - Safi-Harb, Samar

AU - Saha, Kanak

AU - Scowcroft, Vicky

AU - Sestito, Federico

AU - Sharma, Himanshu

AU - Sikora, James

AU - Sivakoff, Gregory R.

AU - Sivarani, Thirupathi

AU - Smith, Patrick

AU - Soh, Warren

AU - Sorba, Robert

AU - Subramanian, Smitha

AU - Teimoorinia, Hossen

AU - Teplitz, Harry I.

AU - Thadani, Shaylin

AU - Thadani, Shavon

AU - Tohuvavohu, Aaron

AU - Venn, Kim A.

AU - Vieira, Nicholas

AU - Webb, Jeremy J.

AU - Wiegert, Paul

AU - Wierckx, Ryan

AU - Wu, Yanqin

AU - Yeung, Jade

AU - Yi, Sukyoung K.

PY - 2025/5/14

Y1 - 2025/5/14

N2 - CASTOR is a proposed wide-field (30′×30′=0.25deg2), high-resolution (FWHM∼0.15′′), 1-m-diameter space telescope that is under development by the Canadian Space Agency and the National Research Council of Canada. Optimized for UV/blue-optical wavelengths, the telescope uses dichroics to enable imaging in three channels (and up to five bands) that cover the 0.15 to 0.55μm spectral region, simultaneously. CASTOR will also feature low- and low-medium-resolution spectroscopic capabilities through the use of a deployable grism for low-resolution (R≲420) slit-less spectroscopy in its UV and u channels, and low-medium-resolution R∼1400 multi-object spectroscopy in a parallel field using a digital micro-mirror device. High-speed, precision photometry will be possible using dedicated CMOS detectors in each of its three channels. We present an overview of the mission, including the optical design, instruments and detectors, payload layout, satellite bus, orbit, and ground segment. We describe the mission’s scientific capabilities and expected place within the astronomical landscape in the 2030s. The 5-year lifetime is baselined on a combination of legacy surveys, guest observer programs, and target-of-opportunity science. We summarize scientific plans for the mission in each of eight fields: cosmology, time domain and multi-messenger science, active galactic nuclei, galaxies, near-field cosmology, stellar astrophysics, exoplanets, and solar system studies. We conclude by describing ongoing development efforts, highlighting areas of particular relevance for NASA’s Habitable Worlds Observatory.

AB - CASTOR is a proposed wide-field (30′×30′=0.25deg2), high-resolution (FWHM∼0.15′′), 1-m-diameter space telescope that is under development by the Canadian Space Agency and the National Research Council of Canada. Optimized for UV/blue-optical wavelengths, the telescope uses dichroics to enable imaging in three channels (and up to five bands) that cover the 0.15 to 0.55μm spectral region, simultaneously. CASTOR will also feature low- and low-medium-resolution spectroscopic capabilities through the use of a deployable grism for low-resolution (R≲420) slit-less spectroscopy in its UV and u channels, and low-medium-resolution R∼1400 multi-object spectroscopy in a parallel field using a digital micro-mirror device. High-speed, precision photometry will be possible using dedicated CMOS detectors in each of its three channels. We present an overview of the mission, including the optical design, instruments and detectors, payload layout, satellite bus, orbit, and ground segment. We describe the mission’s scientific capabilities and expected place within the astronomical landscape in the 2030s. The 5-year lifetime is baselined on a combination of legacy surveys, guest observer programs, and target-of-opportunity science. We summarize scientific plans for the mission in each of eight fields: cosmology, time domain and multi-messenger science, active galactic nuclei, galaxies, near-field cosmology, stellar astrophysics, exoplanets, and solar system studies. We conclude by describing ongoing development efforts, highlighting areas of particular relevance for NASA’s Habitable Worlds Observatory.

KW - ultraviolet

KW - instrumentation

KW - space vehicles

KW - surveys

KW - telescopes

U2 - 10.1117/1.JATIS.11.4.042202

DO - 10.1117/1.JATIS.11.4.042202

M3 - Article

SN - 2329-4124

VL - 11

JO - Journal of Astronomical Telescopes, Instruments, and Systems

JF - Journal of Astronomical Telescopes, Instruments, and Systems

IS - 04

M1 - 042202

ER -

The CASTOR mission

Abstract

Keywords

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Projects

CASTOR Bilateral Development

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