论文降重
免费查重- 钛学术文献服务平台 \
- 学术期刊 \
- 综合期刊 \
- 其它期刊 \
- 现代物理(英文)期刊 \
From Poincaré’s Electro-Gravific Ether (1905) to Cosmological Background Radiation (3°K, 1965)
From Poincaré’s Electro-Gravific Ether (1905) to Cosmological Background Radiation (3°K, 1965)
基本信息来源于合作网站,原文需代理用户跳转至来源网站获取
摘要:
<p align="justify"> <span style="font-family:Verdana;"></span><span style="font-family:Verdana;"></span>It is well known that Einstein published in June 1905 his theory of Special Relativity (SR) without entirely based on space-time Lorentz Transformation (LT) with invariance of Light Velocity. It is much less known that Poincaré published, practically at the same time, a SR also based entirely on LT with also an invariant velocity. However, according to Poincaré, the invariant is not only that of light wave but also that of Gravific Wave in Ether. Poincaré’s Gravific ether exerts also a Gravific pressure, in the same paper, on <i>charged </i>(e) Electron (a “Hole in Ether” according to Poincaré). There are thus two SR: That of Einstein (ESR), without ether and without gravitation, and that of Poincaré (PSR), with Electro-Gravific-Ether. The crucial question arises then: Does “SPECIAL” Poincaré’s (e)-G field fall in the framework of Einstein’s GENERAL Relativity? Our answer is positive. On the basis of Einstein’s equation of gravitation (1917) with Minkowskian Metric (MM) and Zero Constant Cosmological (CC) we rediscover usual Static Vacuum (without <i>charge e </i>of electron). On the other hand with MM and <i>Non-Zero </i>CC, we discover the gravific field of a Cosmological Black Hole (CBH) with density of dark energy compatible with expanding vacuum. Hawking’s Stellar Black Hole (SBH) emits outgoing Black Radiation, whilst Poincaré’s CBH emits (at time zero) incoming Black Radiation. We show that Poincaré’s G-electron involves a (quantum) GRAVITON (on the model of Einstein’s quantum photon) underlying a de Broglie’s G-Wave. There is therefore a Gackground Cosmological model in Poincaré’s basic paper which predicts a density and a temperature of CBR very close to the observed (COBE) values. </p>
推荐文章
Geological cycling of potassium and the K isotopic response: insights from loess and shales
K isotopes
Loess
Shale
K cycle
Obovatachalcone和(±)-Obovatin Methyl Ether的全合成
obovatachalcone
obovatin methyl ether
吡喃类黄酮
全合成
缩合反应
Oil geochemistry derived from the Qinjiatun–Qikeshu oilfields: insight from light hydrocarbons
Light hydrocarbons
Crude oil
Lishu Fault Depression
Geochemistry characteristic
Lithium elemental and isotopic disequilibrium in minerals from peridotite xenoliths from Shangzhi, N
Mantle peridotite
Li isotope
Mantle metasomatism
Northeastern China
内容分析
关键词云
关键词热度
相关文献总数
(/次)
(/年)
文献信息
| 篇名 | From Poincaré’s Electro-Gravific Ether (1905) to Cosmological Background Radiation (3°K, 1965) | ||
| 来源期刊 | 现代物理(英文) | 学科 | 物理学 |
| 关键词 | Poincaré’s Special Relativity (PSR) with Gravitation PSR in Einstein’s GR with CC Poincaré’s Cosmological Black Hole Poincaré’s Incoming Cosmological Black Radiation versus Hawking’ s Outgoing Stellar Black Radiation Poincaré’s Gravitational Pressure on Electron (“Ge”) Vacuum without Charge e (ESR) Vacuum with Charge e (PSR) Lightlike Quantum Graviton | ||
| 年,卷(期) | 2020,(9) | 所属期刊栏目 | |
| 研究方向 | 页码范围 | 1410-1427 | |
| 页数 | 18页 | 分类号 | O41 |
| 字数 | 语种 | ||
| DOI | |||
五维指标
引文网络
引文网络
二级参考文献 (0)
共引文献 (0)
参考文献 (0)
节点文献
引证文献 (0)
同被引文献 (0)
二级引证文献 (0)
2020(0)
- 参考文献(0)
- 二级参考文献(0)
- 引证文献(0)
- 二级引证文献(0)
研究主题发展历程
节点文献
Poincaré’s
Special
Relativity
(PSR)
with
Gravitation
PSR
in
Einstein’s
GR
with
CC
Poincaré’s
Cosmological
Black
Hole
Poincaré’s
Incoming
Cosmological
Black
Radiation
versus
Hawking’
s
Outgoing
Stellar
Black
Radiation
Poincaré’s
Gravitational
Pressure
on
Electron
(“Ge”)
Vacuum
without
Charge
e
(ESR)
Vacuum
with
Charge
e
(PSR)
Lightlike
Quantum
Graviton
研究起点
研究来源
研究分支
研究去脉
引文网络交叉学科
相关学者/机构
期刊影响力
现代物理(英文)
主办单位:
美国科研出版社
出版周期:
月刊
ISSN:
2153-1196
CN:
开本:
出版地:
武汉市江夏区汤逊湖北路38号光谷总部空间
邮发代号:
创刊时间:
语种:
出版文献量(篇)
1826
总下载数(次)
0
总被引数(次)
0
期刊文献
相关文献
推荐文献
- 期刊分类
- 期刊(年)
- 期刊(期)
- 期刊推荐
现代物理(英文)2021
现代物理(英文)2020
现代物理(英文)2019
现代物理(英文)2018
现代物理(英文)2017
现代物理(英文)2015
现代物理(英文)2014
现代物理(英文)2013
现代物理(英文)2012
现代物理(英文)2011
现代物理(英文)2010
现代物理(英文)2020年第9期
现代物理(英文)2020年第8期
现代物理(英文)2020年第7期
现代物理(英文)2020年第6期
现代物理(英文)2020年第5期
现代物理(英文)2020年第4期
现代物理(英文)2020年第3期
现代物理(英文)2020年第2期
现代物理(英文)2020年第12期
现代物理(英文)2020年第11期
现代物理(英文)2020年第10期
现代物理(英文)2020年第1期
