暗物质轴子搜索与 HAYSTAC 第二阶段

arXiv - PHYS - High Energy Physics - Experiment Pub Date : 2024-09-13 DOI:arxiv-2409.08998

HAYSTAC Collaboration, Xiran Bai, M. J. Jewell, J. M. Echevers, K. van Bibber, S. B. Cahn, A. Droster, Maryam H. Esmat, Sumita Ghosh, Eleanor Graham, H. Jackson, Claire Laffan, S. K. Lamoreaux, A. F. Leder, K. W. Lehnert, S. M. Lewis, R. H. Maruyama, R. D. Nath, N. M. Rapidis, E. P. Ruddy, M. Silva-Feaver, M. Simanovskaia, Sukhman Singh, D. H. Speller, Sabrina Zacarias, Yuqi Zhu

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引用次数: 0

摘要

这封信报告了HAYSTAC实验搜索银河系光晕中暗物质轴子的新结果。这是迄今为止利用挤压实现亚量子有限噪声的最广泛搜索。新结果在质量范围17.28--18.44 和18.71--19.46 美元/mu$eV的新扫描参数空间中覆盖了1.71 美元/mu$eV。在90%置信度下，在相应区域内没有观测到轴子信号的统计意义上的证据，不包括耦合度$2.75$\times$|g_{\gamma}^{text{KSVZ}}|$和$2.96$\times$|g_{\gamma}^{text{KSVZ}}|$。通过将这些数据与之前发表的使用HAYSTAC挤压态接收器的结果相结合，现在已经在16.96--19.46 $\mu$eV 之间扫描了总共2.27 $\mu$eV 的参数空间，其中不包括在90%置信水平上2.86 $\times$$|g_\gamma}^{text{KSVZ}} 的参数。这些结果表明，挤压态接收器能够在相当大的质量范围内探测轴子模型，同时实现相对于量子限制实验的速率增强。

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Dark Matter Axion Search with HAYSTAC Phase II

This Letter reports new results from the HAYSTAC experiment's search for dark matter axions in our galactic halo. It represents the widest search to date that utilizes squeezing to realize sub-quantum limited noise. The new results cover 1.71 $\mu$eV of newly scanned parameter space in the mass ranges 17.28--18.44 $\mu$eV and 18.71--19.46 $\mu$eV. No statistically significant evidence of an axion signal was observed, excluding couplings $|g_\gamma|\geq$ 2.75$\times$$|g_{\gamma}^{\text{KSVZ}}|$ and $|g_\gamma|\geq$ 2.96$\times$$|g_{\gamma}^{\text{KSVZ}}|$ at the 90$\%$ confidence level over the respective region. By combining this data with previously published results using HAYSTAC's squeezed state receiver, a total of 2.27 $\mu$eV of parameter space has now been scanned between 16.96--19.46 $\mu$eV, excluding $|g_\gamma|\geq$ 2.86$\times$$|g_{\gamma}^{\text{KSVZ}}|$ at the 90$\%$ confidence level. These results demonstrate the squeezed state receiver's ability to probe axion models over a significant mass range while achieving a scan rate enhancement relative to a quantum-limited experiment.

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arXiv - PHYS - High Energy Physics - Experiment

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