Beecroft Institute for Particle Astrophysics and Cosmology

New Methods for Identifying Lyman Continuum Leakers and Reionization-Epoch Analogues

(2020)

Authors:

Harley Katz, Dominika Ďurovčíková, Taysun Kimm, Joki Rosdahl, Jeremy Blaizot, Martin G Haehnelt, Julien Devriendt, Adrianne Slyz, Richard Ellis, Nicolas Laporte

A Closed-Cycle Miniature Dilution Refrigerator for a Fast-Cooldown 100 mK Detector Wafer Test Cryostat

JOURNAL OF LOW TEMPERATURE PHYSICS 199:3-4 (2020) 771-779

Authors:

S Azzoni, Aj May, St Chase, G Coppi, Lc Kenny, Sj Melhuish, L Piccirillo, A Suzuki, J Wenninger

Abstract:

© 2020, The Author(s). The forthcoming generation of cosmic microwave background polarization observatories is developing large format detector arrays which will operate at 100 mK. Given the volume of detector wafers that will be required, fast-cooldown 100 mK test cryostats are increasingly needed. A miniature dilution refrigerator (MDR) has been developed for this purpose and is reported. The MDR is precooled by a double-stage 3He –4He Chase Research Cryogenics sorption refrigerator. The test cryostat based on this MDR will enable fast cooldown to 100 mK to support rapid feedback testing of detector wafers fabricated for the Simons Observatory. The MDR has been designed to provide a 100 mK stage to be retrocompatible with existing CRC10 sorption coolers, reducing the base temperature from 250 mK for the new generation of detectors. Other 250 mK cryostats can be retrofitted in the same way. This configuration will meet the cryogenic requirements for single-wafer testing, providing 5–10 μ W of cooling power at 100 mk for over 8 h. The system operates in a closed cycle, thereby avoiding external gas connections and cold o-rings. No moving parts are required, with the system operated entirely by heaters.

Detecting ultra-high energy cosmic ray anisotropies through cross-correlations

(2020)

Authors:

Federico R Urban, Stefano Camera, David Alonso

The effects of potential shape on inhomogeneous inflation

Journal of Cosmology and Astroparticle Physics 2020:5 (2020)

Authors:

Jc Aurrekoetxea, K Clough, R Flauger, Ea Lim

Abstract:

© 2020 IOP Publishing Ltd and Sissa Medialab. We study the robustness of single-field inflation against inhomogeneities. We derive a simple analytic criterion on the shape of the potential for successful inflation in the presence of inhomogeneities, and demonstrate its validity using full 3+1 dimensional numerical relativity simulations on several classes of popular models of single-field inflation. We find that models with convex potentials are more robust to inhomogeneities than those with concave potentials, and that concave potentials that vary on super-Planckian scales are significantly more robust than those that vary on sub-Planckian scales.

QUBIC: Using NbSi TESs with a Bolometric Interferometer to Characterize the Polarization of the CMB

Journal of Low Temperature Physics Springer Science and Business Media LLC (2020)

Authors:

M Piat, B Bélier, L Bergé, N Bleurvacq, C Chapron, S Dheilly, L Dumoulin, M González, L Grandsire, J-Ch Hamilton, S Henrot-Versillé, Dt Hoang, S Marnieros, W Marty, J Aumont, S Azzoni, S Banfi, J Bonaparte, J Bonis, A Bottani, E Bunn, D Burke, A Buzzelli, F Cavaliere, P Chanial