Galactic Center gas clouds and novel bounds on ultralight dark photon,vector portal, strongly interacting, composite, and super-heavy dark matter

Amit Bhoonah; Joseph Bramante; Fatemeh Elahi; Sarah Schon

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Galactic Center gas clouds and novel bounds on ultralight dark photon,vector portal, strongly interacting, composite, and super-heavy dark matter

机译：全乳液中心煤气云和小型界限超轻暗光子，矢量门户，强烈互动，复合材料和超重暗物质

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摘要

Cold gas clouds recently discovered hundreds of parsecs from the center of the MilkyWay Galaxy have the potential to detect dark matter. With a detailed treatment of gas cloud microphysical interactions, we determine Galactic Center gas cloud temperatures, unbound electron abundances, atomic ionization fractions, heating rates, and cooling rates and find how these quantities vary with metallicity. Considering a number of different dark sector heating mechanisms, we set new bounds on ultralight dark photon dark matter for masses 10~(-22) - 10~(-10) eV, vector portal dark matter coupled through a sub-mega electron volt mass boson, and up to 10~(60) GeV mass dark matter that interacts with baryons.

机译：冷气云最近发现了来自银河系的中心的数百个Parsecs有可能检测暗物质。通过对气体云微神经相互作用的详细处理，我们确定银河中心气体云温度，未结合的电子丰度，原子电离分数，加热速率和冷却速率，并找到这些数量如何随金属性而变化。考虑到许多不同的暗部门加热机制，我们在超级黑光子暗物质上为质量为10〜（-22） - 10〜（-10）EV，矢量门户暗物质耦合通过子Mega电子伏质量玻色子，最多10〜（60）GEV质量暗物质与Baryons相互作用。

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《Physical review, D》 |2019年第1期|共17页
作者
Amit Bhoonah; Joseph Bramante; Fatemeh Elahi; Sarah Schon;
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作者单位

The McDonald Institute and Department of Physics Engineering Physics and Astronomy Queen's University Kingston Ontario K7L 2S8 Canada;

The McDonald Institute and Department of Physics Engineering Physics and Astronomy Queen's University Kingston Ontario K7L 2S8 Canada;

School of Particles and Accelerators Institute for Research in Fundamental Sciences IPM Tehran Iran;

The McDonald Institute and Department of Physics Engineering Physics and Astronomy Queen's University Kingston Ontario K7L 2S8 Canada;

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原文格式 PDF
正文语种 eng
中图分类粒子物理学;场论;
关键词
center; MilkyWay; potential;

机译：中心;乳道;潜力;

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1. Galactic Center gas clouds and novel bounds on ultralight dark photon,vector portal, strongly interacting, composite, and super-heavy dark matter [J] . Amit Bhoonah, Joseph Bramante, Fatemeh Elahi, Physical review, D . 2019,第2aPta1期

机译：全乳液中心煤气云和小型界限超轻暗光子，矢量门户，强烈互动，复合材料和超重暗物质
2. A potentially detectable gamma-ray line in the Fermi Galactic center excess — in light of one-step cascade annihilations of secluded (vector) dark matter via the Higgs portal [J] . Kwei-Chou Yang The journal of high energy physics . 2020,第7期

机译：Fermi银河系中的一个潜在可检测的γ射线线过度 - 鉴于通过HGGGS门户的僻静（矢量）暗物质的一步级联湮灭
3. Hidden Higgs portal vector dark matter for the Galactic center gamma-ray excess from the two-step cascade annihilation, and muon g ? 2 [J] . Kwei-Chou Yang The journal of high energy physics . 2018,第8期

机译：隐藏的HIGGS门户网路矢量暗物质为银河中心伽马射线过量从两步级联湮灭，而MUON G ？ 2
4. Galactic Center Gamma-Ray Excess and Higgs-Portal Dark Matter [C] . Tanmoy Mondal, Tanushree Basak DAE-BRNS High Energy Physics Symposium . 2016

机译：银河中心伽玛射线过量和Higgs-Portal暗物质
5. Detecting dark matter through galactic collisions and an analysis of non-standard modes of dark matter production [D] . Soldatenko, Adrian 2006

机译：通过银河碰撞检测暗物质并分析暗物质产生的非标准模式
6. Ruling out dark matter interpretation of the galactic GeV excess by gamma-ray data of galaxy clusters [O] . Man Ho Chan, Chung Hei Leung -1

机译：通过星系团的伽马射线数据排除对银河系GeV过量的暗物质解释
7. Galactic Center gas clouds and novel bounds on ultralight dark photon, vector portal, strongly interacting, composite, and super-heavy dark matter [O] . Amit Bhoonah, Joseph Bramante, Fatemeh Elahi, 2019

机译：全乳液中心煤气云和小型界限超轻暗光子，矢量门户，强烈互动，复合材料和超重暗物质

Galactic Center gas clouds and novel bounds on ultralight dark photon,vector portal, strongly interacting, composite, and super-heavy dark matter

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