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Title: The Polarbear-2 and the Simons Array experiments

Abstract

We present an overview of the design and status of the POLARBEAR-2 and the Simons Array experiments. POLARBEAR-2 is a cosmic microwave background polarimetry experiment which aims to characterize the arc-minute angular scale B-mode signal from weak gravitational lensing and search for the degree angular scale B-mode signal from inflationary gravitational waves. The receiver has a 365 mm diameter focal plane cooled to 270 mK. The focal plane is filled with 7588 dichroic lenslet–antenna-coupled polarization sensitive transition edge sensor (TES) bolometric pixels that are sensitive to 95 and 150 GHz bands simultaneously. The TES bolometers are read-out by SQUIDs with 40 channel frequency domain multiplexing. Refractive optical elements are made with high-purity alumina to achieve high optical throughput. The receiver is designed to achieve noise equivalent temperature of 5.8 μKCMB$$ \sqrt{s}$$ in each frequency band. POLARBEAR-2 will deploy in 2016 in the Atacama desert in Chile. The Simons Array is a project to further increase sensitivity by deploying three POLARBEAR-2 type receivers. The Simons Array will cover 95, 150, and 220 GHz frequency bands for foreground control. The Simons Array will be able to constrain tensor-to-scalar ratio and sum of neutrino masses to σ(r) = 6 × 10-3 at r = 0.1 and Σmν(σ = 1) to 40 meV.

Authors:
 [1];  [2];  [3];  [4];  [5];  [6];  [1];  [1];  [7];  [8];  [9];  [10];  [1];  [1];  [11];  [12];  [8];  [4];  [13];  [6] more »;  [12];  [14];  [15];  [4];  [11];  [1];  [1];  [1];  [1];  [16];  [17];  [17];  [17];  [18];  [1];  [1];  [1];  [4];  [19];  [15];  [16];  [12];  [1];  [15];  [4];  [4];  [4];  [20];  [9];  [9];  [9];  [21];  [1];  [4];  [9];  [4];  [4];  [22];  [23];  [15];  [11];  [4];  [17];  [21];  [21];  [6];  [4];  [1];  [24];  [1];  [10];  [10];  [17];  [9];  [1];  [4];  [4];  [21];  [17];  [17];  [25];  [17];  [17];  [10];  [17];  [1];  [1];  [15];  [4];  [1] « less
+ Show Author Affiliations
  1. Univ. of California, Berkeley, CA (United States)
  2. Cardiff Univ., Cardiff (United Kingdom)
  3. High Energy Accelerator Research Org., (KEK), Tsukuba (Japan); SOKENDAI Kamiyamaguchi, Miura (Japan)
  4. Univ. of California, San Diego, CA (United States)
  5. Univ. of Wisconsin, Madison, WI (United States)
  6. International School for Advanced Studies (SISSA), Trieste (Italy)
  7. Argonne National Lab. (ANL), Argonne, IL (United States)
  8. Pontifica Univ. Catolica, Santiago (Chile)
  9. Lawrence Berkeley National Lab. (LBNL), Berkeley, CA (United States)
  10. Dalhousie Univ., Halifax (Canada)
  11. McGill Univ., Montreal, QC (Canada)
  12. Imperial College, London (United Kingdom)
  13. Sorbonne Univ., Paris (France)
  14. Univ. of California, Irvine, CA (United States)
  15. The Univ. of Tokyo, Chiba (Japan)
  16. Univ. of Colorado, Boulder, CO (United States)
  17. High Energy Accelerator Research Organization (KEK), Tsukuba (Japan)
  18. The Univ. of Tokyo, Chiba (Japan); High Energy Accelerator Research Organization (KEK), Tsukuba (Japan); SOKENDAI Kamiyamaguchi, Miura (Japan)
  19. High Energy Accelerator Research Organization (KEK), Tsukuba (Japan); SOKENDAI Kamiyamaguchi, Miura (Japan)
  20. Princeton Univ., Princeton, NJ (United States)
  21. Univ. Paris Diderot, Paris (France)
  22. Japan Aerospace Exploration Agency (JAXA), Sagamihara (Japan)
  23. NASA Goddard Space Flight Center (GSFC), Greenbelt, MD (United States)
  24. Univ. of Melbourne, Parkville (Australia)
  25. National Institute for Fusion Science, Toki (Japan)
Publication Date:
Research Org.:
Argonne National Lab. (ANL), Argonne, IL (United States); Lawrence Berkeley National Lab. (LBNL), Berkeley, CA (United States)
Sponsoring Org.:
Ministry of Education, Culture, Sports, Science and Technology (MEXT) of Japan; USDOE Office of Science (SC), Basic Energy Sciences (BES); National Aeronautics and Space Administration (NASA); Canadian Institute for Advanced Research (CIFAR)
OSTI Identifier:
1346061
Alternate Identifier(s):
OSTI ID: 1525159
Grant/Contract Number:  
AC02-06CH11357; AC02-05CH11231
Resource Type:
Accepted Manuscript
Journal Name:
Journal of Low Temperature Physics
Additional Journal Information:
Journal Volume: 184; Journal Issue: 3-4; Journal ID: ISSN 0022-2291
Publisher:
Springer
Country of Publication:
United States
Language:
English
Subject:
71 CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS; B-mode; cosmic microwave background; gravitational weak lensing; inflation; polarization

Citation Formats

Suzuki, A., Ade, P., Akiba, Y., Aleman, C., Arnold, K., Baccigalupi, C., Barch, B., Barron, D., Bender, A., Boettger, D., Borrill, J., Chapman, S., Chinone, Y., Cukierman, A., Dobbs, M., Ducout, A., Dunner, R., Elleflot, T., Errard, J., Fabbian, G., Feeney, S., Feng, C., Fujino, T., Fuller, G., Gilbert, A., Goeckner-Wald, N., Groh, J., Haan, T. De, Hall, G., Halverson, N., Hamada, T., Hasegawa, M., Hattori, K., Hazumi, M., Hill, C., Holzapfel, W., Hori, Y., Howe, L., Inoue, Y., Irie, F., Jaehnig, G., Jaffe, A., Jeong, O., Katayama, N., Kaufman, J., Kazemzadeh, K., Keating, B., Kermish, Z., Keskitalo, R., Kisner, T., Kusaka, A., Jeune, M. Le, Lee, A., Leon, D., Linder, E., Lowry, L., Matsuda, F., Matsumura, T., Miller, N., Mizukami, K., Montgomery, J., Navaroli, M., Nishino, H., Peloton, J., Poletti, D., Puglisi, G., Rebeiz, G., Raum, C., Reichardt, C., Richards, P., Ross, C., Rotermund, K., Segawa, Y., Sherwin, B., Shirley, I., Siritanasak, P., Stebor, N., Stompor, R., Suzuki, J., Tajima, O., Takada, S., Takakura, S., Takatori, S., Tikhomirov, A., Tomaru, T., Westbrook, B., Whitehorn, N., Yamashita, T., Zahn, A., and Zahn, O. The Polarbear-2 and the Simons Array experiments. United States: N. p., 2016. Web. doi:10.1007/s10909-015-1425-4.
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Suzuki, A., Ade, P., Akiba, Y., Aleman, C., Arnold, K., Baccigalupi, C., Barch, B., Barron, D., Bender, A., Boettger, D., Borrill, J., Chapman, S., Chinone, Y., Cukierman, A., Dobbs, M., Ducout, A., Dunner, R., Elleflot, T., Errard, J., Fabbian, G., Feeney, S., Feng, C., Fujino, T., Fuller, G., Gilbert, A., Goeckner-Wald, N., Groh, J., Haan, T. De, Hall, G., Halverson, N., Hamada, T., Hasegawa, M., Hattori, K., Hazumi, M., Hill, C., Holzapfel, W., Hori, Y., Howe, L., Inoue, Y., Irie, F., Jaehnig, G., Jaffe, A., Jeong, O., Katayama, N., Kaufman, J., Kazemzadeh, K., Keating, B., Kermish, Z., Keskitalo, R., Kisner, T., Kusaka, A., Jeune, M. Le, Lee, A., Leon, D., Linder, E., Lowry, L., Matsuda, F., Matsumura, T., Miller, N., Mizukami, K., Montgomery, J., Navaroli, M., Nishino, H., Peloton, J., Poletti, D., Puglisi, G., Rebeiz, G., Raum, C., Reichardt, C., Richards, P., Ross, C., Rotermund, K., Segawa, Y., Sherwin, B., Shirley, I., Siritanasak, P., Stebor, N., Stompor, R., Suzuki, J., Tajima, O., Takada, S., Takakura, S., Takatori, S., Tikhomirov, A., Tomaru, T., Westbrook, B., Whitehorn, N., Yamashita, T., Zahn, A., & Zahn, O. The Polarbear-2 and the Simons Array experiments. United States. https://doi.org/10.1007/s10909-015-1425-4
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Suzuki, A., Ade, P., Akiba, Y., Aleman, C., Arnold, K., Baccigalupi, C., Barch, B., Barron, D., Bender, A., Boettger, D., Borrill, J., Chapman, S., Chinone, Y., Cukierman, A., Dobbs, M., Ducout, A., Dunner, R., Elleflot, T., Errard, J., Fabbian, G., Feeney, S., Feng, C., Fujino, T., Fuller, G., Gilbert, A., Goeckner-Wald, N., Groh, J., Haan, T. De, Hall, G., Halverson, N., Hamada, T., Hasegawa, M., Hattori, K., Hazumi, M., Hill, C., Holzapfel, W., Hori, Y., Howe, L., Inoue, Y., Irie, F., Jaehnig, G., Jaffe, A., Jeong, O., Katayama, N., Kaufman, J., Kazemzadeh, K., Keating, B., Kermish, Z., Keskitalo, R., Kisner, T., Kusaka, A., Jeune, M. Le, Lee, A., Leon, D., Linder, E., Lowry, L., Matsuda, F., Matsumura, T., Miller, N., Mizukami, K., Montgomery, J., Navaroli, M., Nishino, H., Peloton, J., Poletti, D., Puglisi, G., Rebeiz, G., Raum, C., Reichardt, C., Richards, P., Ross, C., Rotermund, K., Segawa, Y., Sherwin, B., Shirley, I., Siritanasak, P., Stebor, N., Stompor, R., Suzuki, J., Tajima, O., Takada, S., Takakura, S., Takatori, S., Tikhomirov, A., Tomaru, T., Westbrook, B., Whitehorn, N., Yamashita, T., Zahn, A., and Zahn, O. Wed . "The Polarbear-2 and the Simons Array experiments". United States. https://doi.org/10.1007/s10909-015-1425-4. https://www.osti.gov/servlets/purl/1346061.
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@article{osti_1346061,
title = {The Polarbear-2 and the Simons Array experiments},
author = {Suzuki, A. and Ade, P. and Akiba, Y. and Aleman, C. and Arnold, K. and Baccigalupi, C. and Barch, B. and Barron, D. and Bender, A. and Boettger, D. and Borrill, J. and Chapman, S. and Chinone, Y. and Cukierman, A. and Dobbs, M. and Ducout, A. and Dunner, R. and Elleflot, T. and Errard, J. and Fabbian, G. and Feeney, S. and Feng, C. and Fujino, T. and Fuller, G. and Gilbert, A. and Goeckner-Wald, N. and Groh, J. and Haan, T. De and Hall, G. and Halverson, N. and Hamada, T. and Hasegawa, M. and Hattori, K. and Hazumi, M. and Hill, C. and Holzapfel, W. and Hori, Y. and Howe, L. and Inoue, Y. and Irie, F. and Jaehnig, G. and Jaffe, A. and Jeong, O. and Katayama, N. and Kaufman, J. and Kazemzadeh, K. and Keating, B. and Kermish, Z. and Keskitalo, R. and Kisner, T. and Kusaka, A. and Jeune, M. Le and Lee, A. and Leon, D. and Linder, E. and Lowry, L. and Matsuda, F. and Matsumura, T. and Miller, N. and Mizukami, K. and Montgomery, J. and Navaroli, M. and Nishino, H. and Peloton, J. and Poletti, D. and Puglisi, G. and Rebeiz, G. and Raum, C. and Reichardt, C. and Richards, P. and Ross, C. and Rotermund, K. and Segawa, Y. and Sherwin, B. and Shirley, I. and Siritanasak, P. and Stebor, N. and Stompor, R. and Suzuki, J. and Tajima, O. and Takada, S. and Takakura, S. and Takatori, S. and Tikhomirov, A. and Tomaru, T. and Westbrook, B. and Whitehorn, N. and Yamashita, T. and Zahn, A. and Zahn, O.},
abstractNote = {We present an overview of the design and status of the POLARBEAR-2 and the Simons Array experiments. POLARBEAR-2 is a cosmic microwave background polarimetry experiment which aims to characterize the arc-minute angular scale B-mode signal from weak gravitational lensing and search for the degree angular scale B-mode signal from inflationary gravitational waves. The receiver has a 365 mm diameter focal plane cooled to 270 mK. The focal plane is filled with 7588 dichroic lenslet–antenna-coupled polarization sensitive transition edge sensor (TES) bolometric pixels that are sensitive to 95 and 150 GHz bands simultaneously. The TES bolometers are read-out by SQUIDs with 40 channel frequency domain multiplexing. Refractive optical elements are made with high-purity alumina to achieve high optical throughput. The receiver is designed to achieve noise equivalent temperature of 5.8 μKCMB$ \sqrt{s}$ in each frequency band. POLARBEAR-2 will deploy in 2016 in the Atacama desert in Chile. The Simons Array is a project to further increase sensitivity by deploying three POLARBEAR-2 type receivers. The Simons Array will cover 95, 150, and 220 GHz frequency bands for foreground control. The Simons Array will be able to constrain tensor-to-scalar ratio and sum of neutrino masses to σ(r) = 6 × 10-3 at r = 0.1 and Σmν(σ = 1) to 40 meV.},
doi = {10.1007/s10909-015-1425-4},
journal = {Journal of Low Temperature Physics},
number = 3-4,
volume = 184,
place = {United States},
year = {Wed Jan 06 00:00:00 EST 2016},
month = {Wed Jan 06 00:00:00 EST 2016}
}
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https://doi.org/10.1007/s10909-015-1425-4
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Figures / Tables:

Figure 1 Figure 1: (Color online) CAD drawing of the POLARBEAR-2 receiver (upper right), and CAD drawing of the focal planetower (upper left). Three temperature stages (250 milli-Kelvin, 350 milli-Kelvin, 2 Kelvin) are separated by vespel support structures. Photograph of a detector module (bottom left), which consists of a detector wafer, lensletmore » wafer, Invar holder, and cryogenic readout electronics. Automated wirebonds have 100 µm pitch (bottom right). The Sinusoidal circular structure isa broadband antenna. Large rectangular structures are TES bolometers. The RF diplexer filter is visible between the antenna and the bolometers (bottom right).« less
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    • DOI: 10.3847/1538-4357/aa85e2

    A Measurement of the Cosmic Microwave Background B -mode Polarization Power Spectrum at Subdegree Scales from Two Years of polarbear Data
    journal, October 2017

    The Effects of Bandpass Variations on Foreground Removal Forecasts for Future CMB Experiments
    journal, July 2018

    Constraining Gravity at Large Scales with the 2MASS Photometric Redshift Catalog and Planck Lensing
    journal, July 2018

    • Bianchini, Federico; Reichardt, Christian L.
    • The Astrophysical Journal, Vol. 862, Issue 1
    • DOI: 10.3847/1538-4357/aacafd

    A Projected Estimate of the Reionization Optical Depth Using the CLASS Experiment’s Sample Variance Limited E-mode Measurement
    journal, August 2018

    • Watts, Duncan J.; Wang, Bingjie; Ali, Aamir
    • The Astrophysical Journal, Vol. 863, Issue 2
    • DOI: 10.3847/1538-4357/aad283

    Cross-correlation of CMB Polarization Lensing with High- z Submillimeter Herschel -ATLAS Galaxies
    journal, November 2019

    • Faúndez, M. Aguilar; Arnold, K.; Baccigalupi, C.
    • The Astrophysical Journal, Vol. 886, Issue 1
    • DOI: 10.3847/1538-4357/ab4a78

    The Simons Observatory: Science goals and forecasts
    text, January 2019

    • Ade, P.; Aguirre, J.; Ahmed, Z.
    • Apollo - University of Cambridge Repository
    • DOI: 10.17863/cam.38168

    Design and characterization of a ground-based absolute polarization calibrator for use with polarization sensitive CMB experiments
    conference, July 2018

    • Navaroli, Martin F.; Crowley, Kevin D.; Teply, Grant P.
    • Millimeter, Submillimeter, and Far-Infrared Detectors and Instrumentation for Astronomy IX
    • DOI: 10.1117/12.2312856

    Transplanckian Censorship and Global Cosmic Strings
    text, January 2017

    Current and Future Constraints on Primordial Magnetic Fields
    text, January 2017

    Cosmological Constraints on Interacting Light Particles
    text, January 2017

    Measuring Reionization, Neutrino Mass, and Cosmic Inflation with BFORE
    text, January 2017

    Hierarchical sinuous-antenna phased array for millimeter wavelengths
    text, January 2018

    Mitigating Foreground Biases in CMB Lensing Reconstruction Using Cleaned Gradients
    text, January 2018

    Detection and Removal of B-mode Dust Foregrounds with Signatures of Statistical Anisotropy
    text, January 2018

    On the effect of non-Gaussian lensing deflections on CMB lensing measurements
    text, January 2018

    The Simons Observatory: Science goals and forecasts
    text, January 2018

    QUBIC: Exploring the primordial Universe with the Q\&U Bolometric Interferometer
    text, January 2018

    On-sky performance of the SPT-3G frequency-domain multiplexed readout
    text, January 2019

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