Eui-Hyeok Yang scite author profile

Eui-Hyeok Yang

3Publications

136Citation Statements Received

59Citation Statements Given

How they've been cited

138

133

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Affiliations

Kavli Institute for Particle Astrophysics and Cosmology, Stanford University, Ajou University

Publications

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BICEP Array: a multi-frequency degree-scale CMB polarimeter

Hui

Ade

Ahmed

et al. 2018

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Bicep Array is the newest multi-frequency instrument in the Bicep/Keck Array program. It is comprised of four 550 mm aperture refractive telescopes observing the polarization of the cosmic microwave background (CMB) at 30/40, 95, 150 and 220/270 GHz with over 30,000 detectors. We present an overview of the receiver, detailing the optics, thermal, mechanical, and magnetic shielding design. Bicep Array follows Bicep3 's modular focal plane concept, and upgrades to 6" wafer to reduce fabrication with higher detector count per module. The first receiver at 30/40 GHz is expected to start observing at the South Pole during the 2019-20 season. By the end of the planned Bicep Array program, we project 0.002 σ(r) 0.006, assuming current modeling of polarized Galactic foreground and depending on the level of delensing that can be achieved with higher resolution maps from the South Pole Telescope.

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Receiver development for BICEP Array, a next-generation CMB polarimeter at the South Pole

Moncelsi

Ade

Ahmed

et al. 2020

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Optical Characterization of the Keck Array and BICEP3 CMB Polarimeters from 2016 to 2019

et al. 2020

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The BICEP/Keck experiment (BK) is a series of small-aperture refracting telescopes observing degree-scale Cosmic Microwave Background (CMB) polarization from the South Pole in search of a primordial B-mode signature. This B-mode signal arises from primordial gravitational waves interacting with the CMB, and has amplitude parametrized by the tensor-to-scalar ratio r. Since 2016, BICEP3 and the Keck Array have been observing with 4800 total antenna-coupled transition-edge sensor detectors, with frequency bands spanning 95, 150, 220, and 270 GHz. Here we present the optical performance of these receivers from 2016 to 2019, including far-field beams measured in situ with an improved chopped thermal source and instrument spectral response measured with a field-deployable Fourier Transform Spectrometer. As a pair differencing experiment, an important systematic that must be controlled is the differential beam response between the co-located, orthogonally polarized detectors. We generate per-detector far-field beam maps and the corresponding differential beam mismatch that is used to estimate the temperature-to-polarization leakage in our CMB maps and to give feedback on detector and optics fabrication. The differential beam parameters presented here were estimated using improved low-level beam map analysis techniques, including efficient removal of non-Gaussian noise as well as improved spatial masking. These techniques help minimize systematic uncertainty in the beam analysis, with the goal of constraining the bias on r induced by temperature-to-polarization leakage to be subdominant to the statistical uncertainty. This is essential as we progress to higher detector counts in the next generation of CMB experiments.

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Eui-Hyeok Yang

BICEP Array: a multi-frequency degree-scale CMB polarimeter

Receiver development for BICEP Array, a next-generation CMB polarimeter at the South Pole

Optical Characterization of the Keck Array and BICEP3 CMB Polarimeters from 2016 to 2019

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