Dark energy black holes with intermediate masses at high redshifts: An earlier generation of quasars and observations

IF 1.5 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS Modern Physics Letters A Pub Date : 2023-10-09 DOI:10.1142/s0217732323501353
Anupam Singh
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Abstract

Dark energy is the largest fraction of the energy density of our universe — yet it remains one of the enduring enigmas of our times. Here we show that dark energy can be used to solve 2 tantalizing mysteries of the observable universe. We build on existing models of dark energy linked to neutrino masses. In these models, dark energy can undergo phase transitions and form black holes. Here we look at the implications of the family structure of neutrinos for the phase transitions in dark energy and associated peaks in black hole formation. It has been previously shown that one of these peaks in black hole formation is associated with the observed peak in quasar formation at redshifts [Formula: see text]. Here, we predict that there will also be an earlier peak in the dark energy black holes at high redshifts [Formula: see text]. These dark energy black holes formed at high redshifts are Intermediate Mass Black Holes (IMBHs). These dark energy black holes at large redshift can help explain both the EDGES observations and the observations of large Supermassive Black Holes (SMBHs) at redshifts of 7 or larger. This work directs us to actively look for these dark energy black holes at these high redshifts as predicted here through targeted searches for these black holes at the redshifts [Formula: see text] near 18. There is a slight dependence of the location of the peak on the lightest neutrino mass. This may enable a measurement of the lightest neutrino mass — something which has eluded us so far. Finding these dark energy black holes of Intermediate Mass should be within the reach of upcoming observations — particularly with the James Webb Space Telescope — but perhaps also through the use of other innovative techniques focusing specifically on the redshifts [Formula: see text] around 18.
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高红移的中等质量暗能量黑洞:早期的类星体和观测
暗能量是我们宇宙能量密度中最大的一部分,但它仍然是我们这个时代持久的谜团之一。在这里,我们展示了暗能量可以用来解决可观测宇宙中两个诱人的谜团。我们建立在暗能量与中微子质量相关的现有模型之上。在这些模型中,暗能量可以经历相变并形成黑洞。在这里,我们研究了中微子族结构对暗能量相变和黑洞形成过程中相关峰的影响。先前的研究表明,黑洞形成的一个峰值与观测到的红移类星体形成的峰值有关[公式:见文本]。在这里,我们预测在高红移的暗能量黑洞中也会有一个更早的峰值[公式:见文本]。这些形成于高红移的暗能量黑洞是中等质量黑洞(IMBHs)。这些大红移的暗能量黑洞可以帮助解释EDGES观测和红移为7或更大的大型超大质量黑洞(SMBHs)的观测。这项工作指导我们积极寻找高红移的暗能量黑洞,正如这里预测的那样,通过有针对性地搜索红移在18附近的黑洞。峰的位置与最轻的中微子质量有轻微的关系。这可能使我们能够测量最轻的中微子的质量——这是迄今为止我们一直无法做到的。发现这些中等质量的暗能量黑洞应该在即将到来的观测范围之内——特别是詹姆斯·韦伯太空望远镜——但也可能通过使用其他创新技术,专门关注18左右的红移。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Modern Physics Letters A
Modern Physics Letters A 物理-物理:核物理
CiteScore
3.10
自引率
7.10%
发文量
186
审稿时长
3 months
期刊介绍: This letters journal, launched in 1986, consists of research papers covering current research developments in Gravitation, Cosmology, Astrophysics, Nuclear Physics, Particles and Fields, Accelerator physics, and Quantum Information. A Brief Review section has also been initiated with the purpose of publishing short reports on the latest experimental findings and urgent new theoretical developments.
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