Addressing the impact of non-linearity in superconductive bolometers to test cosmological inflation from space with a CMB polarimeter

2022 Fiscal Year Research-status Report

• Project/Area Number: 22K14054
• Research Institution: High Energy Accelerator Research Organization
• Principal Investigator: Ghigna Tommaso 大学共同利用機関法人高エネルギー加速器研究機構, 量子場計測システム国際拠点, 研究員 (60904711)
• Project Period (FY): 2022-04-01 – 2024-03-31
• Keywords: TES bolometers / CMB polarimetry

Outline of Annual Research Achievements

Concerning the hardware side of this proposal, dark characterization of TES bolometers developed by our colleagues at UC Berkeley is progressing. We have been able to test space-like bolometers and verify the requirements in terms of critical temperature, saturation power and time-constant. A more advanced characterization procedure is being tested and has started producing preliminary results of complex impedance that can complement other methods that make use of multiplexing TES readout.
We have also developed a test-bed to perform TES magnetic sensitivity tests that are necessary to inform the design of magnetic shielding structures for future CMB experiments like LiteBIRD. Results have been presented at international conferences and published as conference proceedings.
The simulation code has been used to produced a forecast of the impact of detector non-linearity on simulated data. Results have been presented at international conferences and published on a peer reviewed journal.

Current Status of Research Progress

2: Research has progressed on the whole more than it was originally planned.

Reason

While the research is progressing rather smoothly, the purchase of new equipment has been slow due to Coronavirus pandemic and supply chain issues. Also due to the pandemic most of the budget that was supposed to be used for business trips has not been used.

Strategy for Future Research Activity

The plan for the coming year is to produce results with the more advanced TES characterization method based on complex impedance measurements. This should give more information to build a better responsively model for TES bolometers.
Since I moved from my original institution (The University of Tokyo) to KEK, I have been working on the design of TES bolometers. I plan to use this opportunity to study the impact of different detector geometries on the TES response.
I have been coordinating a collaborative work among a handful of researchers to implement the simple responsively code into a more advanced simulation tool that can be used for more realistic forecasting work for the LiteBIRD experiment. This will be central in developing a data reduction pipeline that can take into account a realistic instrument model and to develop techniques to mitigate instrumental systematic effects.

Causes of Carryover

Supply chain issues and corona pandemic caused delays in the use of the budget for equipment purchase and business trips. In the middle of the fiscal year I also moved from my previous lab (The University of Tokyo) to the new lab at KEK which cause a bit of disruption.

Research Products

• [Journal Article] Modelling TES non-linearity induced by a rotating HWP in a CMB polarimeter (2023)
  • Author(s): Tommaso Ghigna
  • Journal Title: Journal of Low Temperature Physics Volume: n/a Pages: n/a
  • DOI: 10.1007/s10909-023-02939-5
  • Peer Reviewed
• [Journal Article] Testing magnetic interference between TES detectors and the telescope environment for future CMB satellite missions (2022)
  • Author(s): Tommaso Ghigna
  • Journal Title: SPIE Proceedings Volume: 12190 Pages: n/a
  • DOI: 10.1117/12.2630091