论宇宙微波背景辐射的起源

J. Eriksson
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引用次数: 1

摘要

根据标准模型,宇宙微波背景辐射是大爆炸的遗迹。即使温度多年来一直在变化,我们现在有一个准确的数字,272548 K。辐射表现出几乎完美的黑体光谱,这引起了一些混乱,所需的光子数量与过去遥远时刻可用的光子数量不匹配。提出了几种散射机制,以使光子数获得必要的增益。据推测,大爆炸后约38万年的最后一次散射留下了我们现在观察到的辐射模式。一些著名的物理学家对最后的散射表示怀疑,并强调光子来自正电子(e+-e-)湮灭,散射不会保留黑体光谱。基于已知的物理定律,一个理论,连续繁殖宇宙,已经发展。这个理论吸收了过去的重要思想。宇宙是一个复杂的新兴系统,它始于正电子对的单量子涨落。扩张是由新配对的出现所驱动的。通常,重力参数G与半径成反比。该理论正确地预测了可观测宇宙的半径、哈勃参数、能量含量,并对暗能量给出了合理的解释。CBU理论假定原始宇宙经历了从黑洞到充满光子的宇宙的转变。在跃迁之后,一半的能量被绑定到大量的“小”黑洞中,而另一半则作为CMB辐射在自由空间中传播。据推测,CMB光子是由e+-e湮灭引起的。光子的频率能量(hf)随ac2而减小,其中ac是跃迁的比例因子。作为CMB光子的一个特征是成对纠缠并处于叠加状态。如果我们假设叠加态中的光子不能释放能量,它们通过增加光子的数量来补偿高频的损失。当它们向各个方向移动时,增益将是1/ac3。此外,当光子以afl(第一光)进入可观测宇宙时,多普勒效应使波长延长,因此在地球上观测到的一维光子射线获得1/afl的数字增益作为补偿,总增益为1/afl ac3。增益效应和CMB跃迁的半能导致能量密度为4,173·10-14 J/m3,等于BT04,其中B为Stefan-Boltzmann黑体能量密度常数。
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On the Origin of the CMB Radiation
According to the standard model the CMB radiation is a relict of the Big Bang. Even if the temperature has varied over the years, we now have an accurate figure, 2,72548 K. The radiation exhibits an almost perfect black body spectrum, which causes some confusion, the number of photons required does not match the number available at a distant moment in the past. Several scattering mechanisms have been suggested to give the photon number the necessary gain. It is assumed that the last scattering at ca 380.000 yr after the big bang has left the radiation pattern we now observe. Some notable physicists have expressed doubts about the last scattering and emphasized that the photons originate from positron-electron (e+-e-) annihilations and that scattering would not preserve the black body spectrum. Based on known laws of physics a theory, CBU for the Continuously Breeding Universe, has been developed. The theory incorporates important ideas from the past. The universe is a complex emerging system, which starts from the single quantum fluctuation of a positron-electron pair. Expansion is driven by the emersion of new pairs. Typically, the gravitational parameter G is inversely proportional to the radius. The theory predicts correctly the radius of the observable universe, the Hubble parameter, the energy content and gives a plausible explanation to dark energy. The CBU theory postulates that the primordial universe undergoes a transition from a black hole to a photon filled universe. After the transition one half of the energy is bound to a great multitude of ‘small’ black holes, while the other half propagate as the CMB radiation in the free space. It is presumed that the CMB photons are due to e+-e- annihilations. The frequency-energy (hf) of the photons decreases according to ac2, where ac is the scale factor of the transition. As a characteristic feature the CMB photons are pairwise entangled and in a state of superposition. If we assume that photons in a superposition cannot give off energy, they compensate the hf loss by increasing the number of photons. As they move in all directions the gain will be 1/ac3. In addition, when the photons enter the observable universe at afl (first light), the Doppler effect lengthens the wavelength, whereby the 1-dimensional photon ray to be observed on Earth gets a number gain of 1/afl in compensation, the total gain being 1/afl ac3. The gain effect and the half-energy at the CMB transition result in an energy density of 4,173·10-14 J/m3, equal to BT04, where B is the Stefan-Boltzmann black body energy density constant.
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