Unveiling V Modes: Enhancing CMB Sensitivity to BSM Physics with a Non-Ideal Half-Wave Plate

arXiv - PHYS - Cosmology and Nongalactic Astrophysics Pub Date : 2024-09-16 DOI:arxiv-2409.10424

N. Raffuzzi, M. Lembo, S. Giardiello, M. Gerbino, M. Lattanzi, P. Natoli, L. Pagano

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Abstract

V-mode polarization of the cosmic microwave background is expected to be vanishingly small in the $\Lambda$CDM model and, hence, usually ignored. Nonetheless, several astrophysical effects, as well as beyond standard model physics could produce it at a detectable level. A realistic half-wave plate - an optical element commonly used in CMB experiments to modulate the polarized signal - can provide sensitivity to V modes without significantly spoiling that to linear polarization. We assess this sensitivity for some new-generation CMB experiments, such as the LiteBIRD satellite, the ground-based Simons Observatory and a CMB-S4-like experiment. We forecast the efficiency of these experiments to constrain the phenomenology of certain classes of BSM models inducing mixing of linear polarization states and generation of V modes in the CMB. We find that new-generation experiments can improve current limits by 1-to-3 orders of magnitude, depending on the data combination. The inclusion of V-mode information dramatically boosts the sensitivity to these BSM models.

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揭开 V 模式的面纱：利用非理想半波板提高 CMB 对 BSM 物理的灵敏度

宇宙微波背景的V模偏振在$\Lambda$CDM模型中预计会非常小，因此通常会被忽略。然而，一些天体物理效应以及超出标准模型的物理学可能会产生可探测水平的V模偏振。一个现实的半波板--CMB 实验中常用来调制偏振信号的光学元件--可以提供对 V 模式的灵敏度，而不会明显影响对线性偏振的灵敏度。我们评估了一些新一代 CMB 实验的灵敏度，如 LiteBIRD 卫星、地面 Simons 天文台和类似 CMB-S4 的实验。我们预测了这些实验在约束某些BSM模型的现象学方面的效率，这些模型在CMB中引起了线性极化态的混合和V模的产生。我们发现，根据数据组合的不同，新一代实验可以将目前的限制提高 1 到 3 个数量级。V模信息的加入大大提高了对这些BSM模型的灵敏度。

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arXiv - PHYS - Cosmology and Nongalactic Astrophysics

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