The POLARBEAR-2 Experiment

被引：0

作者：

A. Suzuki

P. Ade

Y. Akiba

C. Aleman

K. Arnold

M. Atlas

D. Barron

J. Borrill

S. Chapman

Y. Chinone

A. Cukierman

M. Dobbs

T. Elleflot

J. Errard

G. Fabbian

G. Feng

A. Gilbert

W. Grainger

N. Halverson

M. Hasegawa

K. Hattori

M. Hazumi

W. Holzapfel

Y. Hori

Y. Inoue

G. Jaehnig

N. Katayama

B. Keating

Z. Kermish

R. Keskitalo

T. Kisner

A. Lee

F. Matsuda

T. Matsumura

H. Morii

S. Moyerman

M. Myers

M. Navaroli

H. Nishino

T. Okamura

C. Reichart

P. Richards

C. Ross

K. Rotermund

M. Sholl

P. Siritanasak

G. Smecher

N. Stebor

R. Stompor

J. Suzuki

机构：

[1] University of California,Department of Physics

[2] University of Cardiff,School of Physics and Astronomy

[3] High Energy Accelerator Research Organization,Department of Physics

[4] University of California,Department of Physics and Atmospheric Science

[5] San Diego,Department of Physics

[6] Lawrence Berkeley National Laboratory,Department of Physics

[7] Dalhousie University,Department of Physics

[8] McGill University,undefined

[9] Laboratoire Astroparticule and Cosmologie,undefined

[10] University of Colorado,undefined

[11] Kavli Institute of Physics and Mathematics of the Universe,undefined

[12] Princeton University,undefined

[13] National Institute for Fusion Science,undefined

[14] Osaka University,undefined

来源：

Journal of Low Temperature Physics | 2014年 / 176卷

关键词：

Cosmic microwave background; Inflation; Lensing ; Polarization; B-mode;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

We present an overview of the design and development of the POLARBEAR-2 experiment. The POLARBEAR-2 experiment is a cosmic microwave background polarimetry experiment, which aims to characterize the small angular scale B-mode signal due to gravitational lensing and search for the large angular scale B-mode signal from inflationary gravitational waves. The experiment will have a 365 mm diameter multi-chroic focal plane filled with 7,588 polarization sensitive antenna-coupled Transition Edge Sensor bolometers and will observe at 95 and 150 GHz. The focal plane is cooled to 250 mK. The bolometers will be read-out by SQUIDs with 32×\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$32\times $$\end{document} frequency domain multiplexing. The experiment will utilize high purity alumina lenses and thermal filters to achieve the required high optical throughput. A continuously rotating, cooled half-wave plate will be used to give stringent control over systematic errors. The experiment is designed to achieve a noise equivalent temperature of 5.7 μ\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\mu $$\end{document}Ks\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\sqrt{s}$$\end{document}, and this allows us to constrain the signal from the inflationary primordial gravitational corresponding to a tensor-to-scalar ratio of r=0.01\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$r = 0.01$$\end{document} (2σ\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$2\sigma $$\end{document}). POLARBEAR-2 will also be able to put a constraint on the sum of neutrino masses to 90 meV (1σ\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$1\sigma $$\end{document}) with POLARBEAR-2 data alone and 65 meV (1σ\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$1\sigma $$\end{document}) when combined with the Planck satellite. We plan to start observations in 2014 in the Atacama Desert in Chile.

引用

页码：719 / 725

页数：6

共 50 条

[1] The POLARBEAR-2 Experiment
Suzuki, A.
Ade, P.
Akiba, Y.
Aleman, C.
Arnold, K.
Atlas, M.
Barron, D.
Borrill, J.
Chapman, S.
Chinone, Y.
Cukierman, A.
Dobbs, M.
Elleflot, T.
Errard, J.
Fabbian, G.
Feng, G.
Gilbert, A.
Grainger, W.
Halverson, N.
Hasegawa, M.
Hattori, K.
Hazumi, M.
Holzapfel, W.
Hori, Y.
Inoue, Y.
Jaehnig, G.
Katayama, N.
Keating, B.
Kermish, Z.
Keskitalo, R.
Kisner, T.
Lee, A.
Matsuda, F.
Matsumura, T.
Morii, H.
Moyerman, S.
Myers, M.
Navaroli, M.
Nishino, H.
Okamura, T.
Reichart, C.
Richards, P.
Ross, C.
Rotermund, K.
Sholl, M.
Siritanasak, P.
Smecher, G.
Stebor, N.
Stompor, R.
Suzuki, J.
JOURNAL OF LOW TEMPERATURE PHYSICS, 2014, 176 (5-6) : 719 - 725
[2] The POLARBEAR-2 Experiment
Tomaru, Takayuki
Hazumi, Masashi
Lee, Adrian T.
Ade, Peter
Arnold, Kam
Barron, Darcy
Borrilll, Julian
Chapman, Scott
Chinone, Yuji
Dobbs, Matt
Errard, Josquin
Fabbian, Giullo
Ghribi, Adnan
Grainger, William
Halverson, Nils
Hasegawa, Masaya
Hattori, Kaori
Holzapfel, William L.
Inoue, Yuki
Ishii, Sou
Kaneko, Yuta
Keating, Brian
Kermish, Zigmund
Kimura, Nobuhiro
Kisner, Ted
Kranz, William
Matsuda, Frederick
Matsumura, Tomotake
Morii, Hideki
Myers, Michael J.
Nishino, Haruki
Okamura, Takahiro
Quealy, Erin
Reichardt, Christian L.
Richards, Paul L.
Rosen, Darin
Ross, Colin
Shimizu, Akie
Sholl, Michael
Siritanasak, Praween
Smith, Peter
Stebor, Nathan
Stompor, Radek
Suzuki, Aritoki
Suzuki, Jun-ichi
Takada, Suguru
Tanaka, Ken-ichi
Zahn, Oliver
MILLIMETER, SUBMILLIMETER, AND FAR-INFRARED DETECTORS AND INSTRUMENTATION FOR ASTRONOMY VI, 2012, 8452
[3] Development of Readout Electronics for POLARBEAR-2 Cosmic Microwave Background Experiment
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Akiba, Y.
Arnold, K.
Barron, D.
Bender, A. N.
Cukierman, A.
de Haan, T.
Dobbs, M.
Elleflot, T.
Hasegawa, M.
Hazumi, M.
Holzapfel, W.
Hori, Y.
Keating, B.
Kusaka, A.
Lee, A.
Montgomery, J.
Rotermund, K.
Shirley, I.
Suzuki, A.
Whitehorn, N.
JOURNAL OF LOW TEMPERATURE PHYSICS, 2016, 184 (1-2) : 512 - 518
[4] Development of Readout Electronics for POLARBEAR-2 Cosmic Microwave Background Experiment
K. Hattori
Y. Akiba
K. Arnold
D. Barron
A. N. Bender
A. Cukierman
T. de Haan
M. Dobbs
T. Elleflot
M. Hasegawa
M. Hazumi
W. Holzapfel
Y. Hori
B. Keating
A. Kusaka
A. Lee
J. Montgomery
K. Rotermund
I. Shirley
A. Suzuki
N. Whitehorn
Journal of Low Temperature Physics, 2016, 184 : 512 - 518
[5] POLARBEAR-2 optical and polarimeter designs
Matsumura, Tomotake
Ade, Peter
Arnold, Kam
Barron, Darcy
Borrill, Julian
Chapman, Scott
Chinone, Yuji
Dobbs, Matt
Errard, Josquin
Fabbian, Giullo
Ghribi, Adnan
Grainger, William
Halverson, Nils
Hasegawa, Masaya
Hattori, Kaori
Hazumi, Masashi
Holzapfel, William L.
Inoue, Yuki
Ishii, Sou
Kaneko, Yuta
Keating, Brian
Kermish, Zigmund
Kimura, Nobuhiro
Kisner, Ted
Kranz, William
Lee, Adrian T.
Matsuda, Frederick
Morii, Hideki
Myers, Michael J.
Nishino, Haruki
Okamura, Takahiro
Quealy, Erin
Reichardtc, Christian
Richards, Paul L.
Rosen, Darin
Ross, Colin
Shimizu, Akie
Sholl, Michael
Siritanasak, Praween
Smith, Peter
Stebor, Nathan
Stompor, Radek
Suzuki, Aritoki
Suzuki, Jun-ichi
Takada, Suguru
Tanaka, Ken-ichi
Tomaru, Takayuki
Zahn, Oliver
MILLIMETER, SUBMILLIMETER, AND FAR-INFRARED DETECTORS AND INSTRUMENTATION FOR ASTRONOMY VI, 2012, 8452
[6] The Polarbear-2 and the Simons Array Experiments
A. Suzuki
P. Ade
Y. Akiba
C. Aleman
K. Arnold
C. Baccigalupi
B. Barch
D. Barron
A. Bender
D. Boettger
J. Borrill
S. Chapman
Y. Chinone
A. Cukierman
M. Dobbs
A. Ducout
R. Dunner
T. Elleflot
J. Errard
G. Fabbian
S. Feeney
C. Feng
T. Fujino
G. Fuller
A. Gilbert
N. Goeckner-Wald
J. Groh
T. De Haan
G. Hall
N. Halverson
T. Hamada
M. Hasegawa
K. Hattori
M. Hazumi
C. Hill
W. Holzapfel
Y. Hori
L. Howe
Y. Inoue
F. Irie
G. Jaehnig
A. Jaffe
O. Jeong
N. Katayama
J. Kaufman
K. Kazemzadeh
B. Keating
Z. Kermish
R. Keskitalo
T. Kisner
Journal of Low Temperature Physics, 2016, 184 : 805 - 810
[7] The POLARBEAR-2 and the Simons Array Experiments
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.
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[8] POLARBEAR-2: an instrument for CMB polarization measurements
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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.
de Haan, T.
Dobbs, M. A.
Ducout, A.
Dunner, R.
Elleflot, T.
Errard, J.
Fabbian, G.
Feeney, S.
Feng, C.
Fuller, G.
Gilbert, A. J.
Goeckner-Wald, N.
Groh, J.
Hall, G.
Halverson, N.
Hamada, T.
Hasegawab, M.
Hattori, K.
Hazumi, M.
Hill, C.
Holzapfel, W. L.
Hori, Y.
Howe, L.
Irie, F.
Jaehnig, G.
Jaffe, A.
Jeong, O.
Katayama, N.
Kaufman, J. P.
Kazemzadeh, K.
Keating, B. G.
Kermish, Z.
Keskital, R.
Kisner, T.
Kusaka, A.
Le Jeune, M.
MILLIMETER, SUBMILLIMETER, AND FAR-INFRARED DETECTORS AND INSTRUMENTATION FOR ASTRONOMY VIII, 2016, 9914
[9] Development and characterization of the readout system for POLARBEAR-2
Barronk, D.
Ade, P. A. R.
Akiba, Y.
Aleman, C.
Arnold, K.
Atlas, M.
Bender, A.
Borrill, J.
Chapman, S.
Chinone, Y.
Cukierman, A.
Dobbs, M.
Elleflot, T.
Errard, J.
Fabbian, G.
Feng, G.
Gilbert, A.
Halverson, N. W.
Hasegawa, M.
Hattori, K.
Hzumi, M.
Holzapfel, W. L.
Hori, Y.
Inoue, Y.
Jaehnig, G. C.
Katayama, N.
Keating, B.
Kermish, Z.
Keskitalo, R.
Kisner, T.
Le Jeune, M.
Lee, A. T.
Matsuda, F.
Matsumura, T.
Morii, H.
Myers, M. J.
Navaroli, M.
Nishino, H.
Okamura, T.
Peloton, J.
Rebeiz, G.
Reichardt, C. L.
Richards, P. L.
Ross, C.
Sholl, M.
Siritanasak, P.
Smecher, G.
Stebor, N.
Steinbach, B.
Stompor, R.
MILLIMETER, SUBMILLIMETER, AND FAR-INFRARED DETECTORS AND INSTRUMENTATION FOR ASTRONOMY VII, 2014, 9153
[10] The Broadband Anti-reflection Coated Extended Hemispherical Silicon Lenses for POLARBEAR-2 Experiment
Siritanasak, P.
Aleman, C.
Arnold, K.
Cukierman, A.
Hazumi, M.
Kazemzadeh, K.
Keating, B.
Matsumura, T.
Lee, A. T.
Lee, C.
Quealy, E.
Rosen, D.
Stebor, N.
Suzuki, A.
JOURNAL OF LOW TEMPERATURE PHYSICS, 2016, 184 (3-4) : 553 - 558

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