Curie Particle and the Relation between the Masses of Sub-atomic Particles, Supporting (BICEP2`s) Experiments, Mass of Neutrino, Present “The LHCb Collaboration” & “Atlas” Experiments: Scientific Explanation

Current Approaches in Science and Technology Research Vol. 13 Pub Date : 2021-08-02 DOI:10.9734/bpi/castr/v13/10764d

Nirmalendu Das

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Abstract

Light is very sensitive matter. In terms of mass of a photon is important in every field of matter thus for the universe. The scientists of many countries are trying to find the mass of photon by experiment since 1936 and continuing this work in various countries. But the obtained results are differing to each other. So, we cannot consider these mass of a photon. On the other hand matter is made by the photons. We get this idea from the Einstein equation E = mc2. Again, energy is nothing but the bunch of photons. I calculate the mass of a photon (1.6596x10-54 gm) [1] and this mass is applicable to all fields. Here, in this article, we can calculate the mass of “Curie particle” (Unknown to us) by using this mass of photon & is related to Higgs and other sub-atomic particles. The energy of Higgs particle is very low as per BICEP2`s experimental report [2] and I reported about this matter in the year 2011 to “The Authority of CERN, Editor of Press release of CERN and many other places” by emailing, but did not get answer in this regards. But this is very interesting that as per “Universe Today” report (20th November, 2014) of BICEP2 (Background Imaging of Cosmic Extragalactic Polarization), my calculated observation supports their views. Dr. A. P. J. ABDUL KALAM, SRIJAN PAL SINGH reported (17 June, 2015) the mass neutrino as 1x10-37 kg [3] (in terms of energy is 0.056095861 eV) obtained from calculated results from the difference of two particles. Again, as per report, 19th June, & 27th July 2015, my calculated values tallied “The LHCb collaboration” [4], “ATLAS” [5] experiments. From this view, we have to think on photon`s mass and its activities. From the calculated results, we can say, the mass of a photon is correct and it is applicable to all fields from the particle to the universe.

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居里粒子与亚原子粒子质量的关系，支持(BICEP2’s)实验，中微子质量，“LHCb协作”和“Atlas”实验:科学解释

光是非常敏感的物质。光子的质量在物质的每一个领域都很重要，因此对宇宙来说。自1936年以来，许多国家的科学家都在试图通过实验找到光子的质量，并在各国继续这项工作。但是得到的结果却各不相同。所以我们不能考虑光子的质量。另一方面，物质是由光子构成的。我们从爱因斯坦方程E = mc2中得到这个概念。再说一遍，能量不过是一束光子。我计算了光子的质量(1.6596 × 10-54 gm)[1]，这个质量适用于所有领域。在这里，在这篇文章中，我们可以通过光子的质量来计算“居里粒子”(我们未知)的质量&它与希格斯粒子和其他亚原子粒子有关。根据BICEP2的实验报告[2]，希格斯粒子的能量非常低，我在2011年通过邮件向“CERN权威机构、CERN新闻稿编辑等多处”报告了此事，但没有得到答复。但是非常有趣的是，根据BICEP2(宇宙河外偏振背景成像)的“今日宇宙”报告(2014年11月20日)，我的计算观测支持了他们的观点。A. P. J. ABDUL KALAM, SRIJAN PAL SINGH博士报告(2015年6月17日)从两个粒子差的计算结果中获得了质量为1 × 10-37 kg[3](能量为0.056095861 eV)的中微子。同样，根据2015年6月19日和7月27日的报告，我的计算值符合“LHCb协作”[4]，“ATLAS”[5]实验。从这个观点出发，我们必须考虑光子的质量及其活动。从计算结果可以看出，光子的质量是正确的，它适用于从粒子到宇宙的所有领域。

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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Current Approaches in Science and Technology Research Vol. 13

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