标题： 中子排斥 显示英文标题

标题： Neutron Repulsion

摘要： 地球通过引力、磁力和电场与它的热源——一个中子星相连，这个中子星由于光球层中的废物产物而无法被直接观测到。 中子排斥类似于白炽灯泡中的热丝。 激发的中子从太阳核心发射出来，并衰变成氢，这些氢在光球层中发光，就像一个磨砂灯泡一样。 在2000年，中子排斥被识别为被忽视的能量来源，是连接这些令人困惑的太空时代观测结果的拱门的关键部分：1.) 在形成太阳系的恒星残骸中，原始氦气伴随着过量的136Xe（图~1）；2.) 太阳形成于超新星核心（图~2）；3.) 核心的废物穿过富含铁的地幔，选择性地将较轻的元素和每个元素的较轻同位素带入光球层（图3-4）；以及4.) 中子排斥驱动太阳并维持生命（图5-7）。 这些发现共同提供了一个理解如何：a.) 太阳产生并释放中微子、能量和太阳风中的氢和氦；b.) 一个宜居的行星在看似普通的恒星周围形成并演化出生命；c.) 连续的气候变化——由太阳能量核心与行星之间的周期性引力相互作用引起——通过适应促进了生存。 显示英文摘要

摘要： Earth is connected gravitationally, magnetically and electrically to its heat source - a neutron star that is obscured from view by waste products in the photosphere. Neutron repulsion is like the hot filament in an incandescent light bulb. Excited neutrons are emitted from the solar core and decay into hydrogen that glows in the photosphere like a frosted light bulb. Neutron repulsion was recognized in nuclear rest mass data in 2000 as the overlooked source of energy, the keystone of an arch that locked together these puzzling space-age observations: 1.) Excess 136Xe accompanied primordial helium in the stellar debris that formed the solar system (Fig. 1); 2.) The Sun formed on the supernova core (Fig. 2); 3.) Waste products from the core pass through an iron-rich mantle, selectively carrying lighter elements and lighter isotopes of each element into the photosphere (Figs. 3-4); and 4.) Neutron repulsion powers the Sun and sustains life (Figs. 5-7). Together these findings offer a framework for understanding how: a.) The Sun generates and releases neutrinos, energy and solar-wind hydrogen and helium; b.) An inhabitable planet formed and life evolved around an ordinary-looking star; c.) Continuous climate change - induced by cyclic changes in gravitational interactions of the Sun's energetic core with planets - has favored survival by adaptation.