EBEX: A balloon-borne CMB polarization experiment

Britt Reichborn-Kjennerud; Asad M. Aboobaker; Peter Ade; François Aubin; Carlo Baccigalupi; Chaoyun Bao; Julian Borrill; Christopher Cantalupo; Daniel Chapman; Joy Didier; Matt Dobbs; Julien Grain; William Grainger; Shaul Hanany; Seth Hillbrand; Johannes Hubmayr; Andrew Jaffe; Bradley Johnson; Terry Jones; Theodore Kisner; Jeff Klein; Andrei Korotkov; Sam Leach; Adrian Lee; Lorne Levinson; Michele Limon; Kevin MacDermid; Tomotake Matsumura; Xiaofan Meng; Amber Miller; Michael Milligan; Enzo Pascale; Daniel Polsgrove; Nicolas Ponthieu; Kate Raach; Ilan Sagiv; Graeme Smecher; Federico Stivoli; Radek Stompor; Huan Tran; Matthieu Tristram; Gregory S. Tucker; Yury Vinokurov; Amit Yadav; Matias Zaldarriaga; Kyle Zilic

doi:10.1117/12.857138

EBEX: A balloon-borne CMB polarization experiment

Britt Reichborn-Kjennerud, Asad M. Aboobaker, Peter Ade, François Aubin, Carlo Baccigalupi, Chaoyun Bao, Julian Borrill, Christopher Cantalupo, Daniel Chapman, Joy Didier, Matt Dobbs, Julien Grain, William Grainger, Shaul Hanany, Seth Hillbrand, Johannes Hubmayr, Andrew Jaffe, Bradley Johnson, Terry Jones, Theodore KisnerJeff Klein, Andrei Korotkov, Sam Leach, Adrian Lee, Lorne Levinson, Michele Limon, Kevin MacDermid, Tomotake Matsumura, Xiaofan Meng, Amber Miller, Michael Milligan, Enzo Pascale, Daniel Polsgrove, Nicolas Ponthieu, Kate Raach, Ilan Sagiv, Graeme Smecher, Federico Stivoli, Radek Stompor, Huan Tran, Matthieu Tristram, Gregory S. Tucker, Yury Vinokurov, Amit Yadav, Matias Zaldarriaga, Kyle Zilic

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

94 Scopus citations

Abstract

EBEX is a NASA-funded balloon-borne experiment designed to measure the polarization of the cosmic microwave background (CMB). Observations will be made using 1432 transition edge sensor (TES) bolometric detectors read out with frequency multiplexed SQuIDs. EBEX will observe in three frequency bands centered at 150, 250, and 410 GHz, with 768, 384, and 280 detectors in each band, respectively. This broad frequency coverage is designed to provide valuable information about polarized foreground signals from dust. The polarized sky signals will be modulated with an achromatic half wave plate (AHWP) rotating on a superconducting magnetic bearing (SMB) and analyzed with a fixed wire grid polarizer. EBEX will observe a patch covering ~1% of the sky with 8' resolution, allowing for observation of the angular power spectrum from l = 20 to 1000. This will allow EBEX to search for both the primordial B-mode signal predicted by inflation and the anticipated lensing B-mode signal. Calculations to predict EBEX constraints on r using expected noise levels show that, for a likelihood centered around zero and with negligible foregrounds, 99% of the area falls below r = 0.035. This value increases by a factor of 1.6 after a process of foreground subtraction. This estimate does not include systematic uncertainties. An engineering flight was launched in June, 2009, from Ft. Sumner, NM, and the long duration science flight in Antarctica is planned for 2011. These proceedings describe the EBEX instrument and the North American engineering flight.

Original language	English (US)
Title of host publication	Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy V
Publisher	SPIE
ISBN (Print)	9780819482310
DOIs	https://doi.org/10.1117/12.857138
State	Published - 2010
Event	Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy V - San Diego, CA, United States Duration: Jun 29 2010 → Jul 2 2010

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	7741
ISSN (Print)	0277-786X

Conference

Conference	Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy V
Country/Territory	United States
City	San Diego, CA
Period	6/29/10 → 7/2/10

Keywords

B-mode
Balloon-borne
CMB Polarization
EBEX

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10.1117/12.857138

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Reichborn-Kjennerud, B., Aboobaker, A. M., Ade, P., Aubin, F., Baccigalupi, C., Bao, C., Borrill, J., Cantalupo, C., Chapman, D., Didier, J., Dobbs, M., Grain, J., Grainger, W., Hanany, S., Hillbrand, S., Hubmayr, J., Jaffe, A., Johnson, B., Jones, T., ... Zilic, K. (2010). EBEX: A balloon-borne CMB polarization experiment. In Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy V Article 77411C (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 7741). SPIE. https://doi.org/10.1117/12.857138

EBEX: A balloon-borne CMB polarization experiment. / Reichborn-Kjennerud, Britt; Aboobaker, Asad M.; Ade, Peter et al.
Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy V. SPIE, 2010. 77411C (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 7741).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Reichborn-Kjennerud, B, Aboobaker, AM, Ade, P, Aubin, F, Baccigalupi, C, Bao, C, Borrill, J, Cantalupo, C, Chapman, D, Didier, J, Dobbs, M, Grain, J, Grainger, W, Hanany, S, Hillbrand, S, Hubmayr, J, Jaffe, A, Johnson, B, Jones, T, Kisner, T, Klein, J, Korotkov, A, Leach, S, Lee, A, Levinson, L, Limon, M, MacDermid, K, Matsumura, T, Meng, X, Miller, A, Milligan, M, Pascale, E, Polsgrove, D, Ponthieu, N, Raach, K, Sagiv, I, Smecher, G, Stivoli, F, Stompor, R, Tran, H, Tristram, M, Tucker, GS, Vinokurov, Y, Yadav, A, Zaldarriaga, M & Zilic, K 2010, EBEX: A balloon-borne CMB polarization experiment. in Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy V., 77411C, Proceedings of SPIE - The International Society for Optical Engineering, vol. 7741, SPIE, Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy V, San Diego, CA, United States, 6/29/10. https://doi.org/10.1117/12.857138

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abstract = "EBEX is a NASA-funded balloon-borne experiment designed to measure the polarization of the cosmic microwave background (CMB). Observations will be made using 1432 transition edge sensor (TES) bolometric detectors read out with frequency multiplexed SQuIDs. EBEX will observe in three frequency bands centered at 150, 250, and 410 GHz, with 768, 384, and 280 detectors in each band, respectively. This broad frequency coverage is designed to provide valuable information about polarized foreground signals from dust. The polarized sky signals will be modulated with an achromatic half wave plate (AHWP) rotating on a superconducting magnetic bearing (SMB) and analyzed with a fixed wire grid polarizer. EBEX will observe a patch covering ~1% of the sky with 8' resolution, allowing for observation of the angular power spectrum from l = 20 to 1000. This will allow EBEX to search for both the primordial B-mode signal predicted by inflation and the anticipated lensing B-mode signal. Calculations to predict EBEX constraints on r using expected noise levels show that, for a likelihood centered around zero and with negligible foregrounds, 99% of the area falls below r = 0.035. This value increases by a factor of 1.6 after a process of foreground subtraction. This estimate does not include systematic uncertainties. An engineering flight was launched in June, 2009, from Ft. Sumner, NM, and the long duration science flight in Antarctica is planned for 2011. These proceedings describe the EBEX instrument and the North American engineering flight.",

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AU - Ade, Peter

AU - Aubin, François

AU - Baccigalupi, Carlo

AU - Bao, Chaoyun

AU - Borrill, Julian

AU - Cantalupo, Christopher

AU - Chapman, Daniel

AU - Didier, Joy

AU - Dobbs, Matt

AU - Grain, Julien

AU - Grainger, William

AU - Hanany, Shaul

AU - Hillbrand, Seth

AU - Hubmayr, Johannes

AU - Jaffe, Andrew

AU - Johnson, Bradley

AU - Jones, Terry

AU - Kisner, Theodore

AU - Klein, Jeff

AU - Korotkov, Andrei

AU - Leach, Sam

AU - Lee, Adrian

AU - Levinson, Lorne

AU - Limon, Michele

AU - MacDermid, Kevin

AU - Matsumura, Tomotake

AU - Meng, Xiaofan

AU - Miller, Amber

AU - Milligan, Michael

AU - Pascale, Enzo

AU - Polsgrove, Daniel

AU - Ponthieu, Nicolas

AU - Raach, Kate

AU - Sagiv, Ilan

AU - Smecher, Graeme

AU - Stivoli, Federico

AU - Stompor, Radek

AU - Tran, Huan

AU - Tristram, Matthieu

AU - Tucker, Gregory S.

AU - Vinokurov, Yury

AU - Yadav, Amit

AU - Zaldarriaga, Matias

AU - Zilic, Kyle

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N2 - EBEX is a NASA-funded balloon-borne experiment designed to measure the polarization of the cosmic microwave background (CMB). Observations will be made using 1432 transition edge sensor (TES) bolometric detectors read out with frequency multiplexed SQuIDs. EBEX will observe in three frequency bands centered at 150, 250, and 410 GHz, with 768, 384, and 280 detectors in each band, respectively. This broad frequency coverage is designed to provide valuable information about polarized foreground signals from dust. The polarized sky signals will be modulated with an achromatic half wave plate (AHWP) rotating on a superconducting magnetic bearing (SMB) and analyzed with a fixed wire grid polarizer. EBEX will observe a patch covering ~1% of the sky with 8' resolution, allowing for observation of the angular power spectrum from l = 20 to 1000. This will allow EBEX to search for both the primordial B-mode signal predicted by inflation and the anticipated lensing B-mode signal. Calculations to predict EBEX constraints on r using expected noise levels show that, for a likelihood centered around zero and with negligible foregrounds, 99% of the area falls below r = 0.035. This value increases by a factor of 1.6 after a process of foreground subtraction. This estimate does not include systematic uncertainties. An engineering flight was launched in June, 2009, from Ft. Sumner, NM, and the long duration science flight in Antarctica is planned for 2011. These proceedings describe the EBEX instrument and the North American engineering flight.

AB - EBEX is a NASA-funded balloon-borne experiment designed to measure the polarization of the cosmic microwave background (CMB). Observations will be made using 1432 transition edge sensor (TES) bolometric detectors read out with frequency multiplexed SQuIDs. EBEX will observe in three frequency bands centered at 150, 250, and 410 GHz, with 768, 384, and 280 detectors in each band, respectively. This broad frequency coverage is designed to provide valuable information about polarized foreground signals from dust. The polarized sky signals will be modulated with an achromatic half wave plate (AHWP) rotating on a superconducting magnetic bearing (SMB) and analyzed with a fixed wire grid polarizer. EBEX will observe a patch covering ~1% of the sky with 8' resolution, allowing for observation of the angular power spectrum from l = 20 to 1000. This will allow EBEX to search for both the primordial B-mode signal predicted by inflation and the anticipated lensing B-mode signal. Calculations to predict EBEX constraints on r using expected noise levels show that, for a likelihood centered around zero and with negligible foregrounds, 99% of the area falls below r = 0.035. This value increases by a factor of 1.6 after a process of foreground subtraction. This estimate does not include systematic uncertainties. An engineering flight was launched in June, 2009, from Ft. Sumner, NM, and the long duration science flight in Antarctica is planned for 2011. These proceedings describe the EBEX instrument and the North American engineering flight.

KW - B-mode

KW - Balloon-borne

KW - CMB Polarization

KW - EBEX

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DO - 10.1117/12.857138

M3 - Conference contribution

AN - SCOPUS:77956216219

SN - 9780819482310

T3 - Proceedings of SPIE - The International Society for Optical Engineering

BT - Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy V

PB - SPIE

Y2 - 29 June 2010 through 2 July 2010

ER -

EBEX: A balloon-borne CMB polarization experiment

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