The Biological Big Bang: The First Oceans of Primordial Planets at 2-8 Million Years Explain Hoyle/Wickramasinghe Cometary Panspermia

机译：生物大爆炸：2-8百万年的原始行星的第一片海洋解释了霍伊尔/维克拉玛辛格彗星泛紫罗兰

获取原文

获取原文并翻译 | 示例

页面导航

摘要
著录项
相似文献
相关主题

摘要

Hydrogravitional-dynamics (HGD) cosmology of Gibson/Schild 1996 predicts that the primordial H-He~4 gas of big bang nucleosynthesis became proto-globular-star-cluster clumps of Earth-mass planets at 300 Kyr. The first stars formed from mergers of these 3000 K gas planets. Chemicals C, N, O, Fe etc. created by stars and supernovae then seeded many of the reducing hydrogen gas planets with oxides to give them hot water oceans with metallic iron-nickel cores. Water oceans at critical temperature 647 K then hosted the first organic chemistry and the first life, distributed to the 10~(80) planets of the cosmological big bang by comets produced by the new (HGD) planet-merger star formation mechanism. The biological big bang scenario occurs between 2 Myr when liquid oceans condensed and 8 Myr when they froze. HGD cosmology explains, very naturally, the Hoyle/Wickramasinghe concept of cometary panspermia by giving a vast, hot, nourishing, cosmological primordial soup for abiogenesis, and the means for transmitting the resulting life forms and their evolving chemical mechanisms widely throughout the universe. A primordial astrophysical basis is provided for astrobiology by HGD cosmology. Concordance ACDMHC cosmology is rendered obsolete by the observation of complex life on Earth.

机译：吉布森/希尔德（Gibson / Schild）的水文重力动力学（HGD）宇宙学1996年预测，大爆炸核合成的原始H-He〜4气体在300 Kyr时成为地球质量行星的原球状星团团块。这些3000 K气体行星的合并形成了第一批恒星。然后，由恒星和超新星产生的化学物质C，N，O，Fe等将许多还原性氢气的行星用氧化物播种，使它们成为带有金属铁镍核的热水海洋。然后，在647 K的临界温度下，水海洋经历了第一个有机化学和第一个生命，并通过新的（HGD）行星合并恒星形成机制产生的彗星分配到了宇宙大爆炸的10〜（80）个行星上。生物大爆炸情景发生在液态海洋凝结时为2 Myr和冻结时为8 Myr之间。 HGD宇宙学很自然地解释了Hoyle / Wickramasinghe的彗星泛精症的概念，它给出了一种庞大的，热的，营养丰富的，原始的生源性汤，以及在整个宇宙中广泛传播所产生的生命形式及其不断发展的化学机制的手段。 HGD宇宙学为天体生物学提供了原始的天体物理学基础。通过观察地球上复杂的生命，协和ACDMHC宇宙学变得过时了。

著录项

来源
《Instruments, methods, and missions for astrobiology XIV》|2011年|p.815210.1-815210.19|共19页
会议地点 San Diego CA(US)
作者
Carl H. Gibson;
展开▼
作者单位

UCSD, La Jolla, CA, 92093-0411, USA;

展开▼
会议组织
原文格式 PDF
正文语种 eng
中图分类航空仪表、航空设备、飞行控制与导航;
关键词
cosmology; star formation; planet formation; astrobiology;

机译：宇宙学恒星形成行星形成；天体生物学;

相似文献

外文文献

1. The ice age of primordial planets: The sources of the ocean and the origin of the biosphere [J] . Lopukhin A.S., Eremeev V.N. Herald of the Russian Academy of Sciences . 2013,第5期

机译：原始行星的冰河时代：海洋资源和生物圈的起源
2. Biological oceanography and fisheries management: perspective after 10 years [J] . Trevor Platt, Shubha Sathyendranath, Cesar Fuentes-Yaco ICES Journal of Marine Science . 2007,第5期

机译：生物海洋学和渔业管理：十年后的前景
3. Hydro-gravitational-dynamics cosmology is crucial to astrobiology and the biological big bang at two million years [C] . Carl H. Gibson Instruments, methods, and missions for astrobiology XVII . 2015

机译：重力流体动力学宇宙学对于200万年的天体生物学和生物大爆炸至关重要
4. The Biological Big Bang: The First Oceans of Primordial Planets at 2-8 Million Years Explain Hoyle/Wickramasinghe Cometary Panspermia [O] . Gibson, Carl H. 2011

机译：生物大爆炸：原始行星的第一个海洋在2-8 百万年解释Hoyle / Wickramasinghe Cometary panspermia
5. West Hackberry Strategic Petroleum Reserve Site Brine Disposal Monitoring, Year I Report. Volume 5. Supporting Data for Estuarine Hydrology, Discharge Plume Analysis, Chemical Oceanography, Biological Oceanography, and Data Manage [R] . DeRouen, L. R., Hann, R. W., Casserly, D. M., 1983

机译：West Hackberry战略石油储备场地盐水处置监测，第一年报告。第5卷。河口水文，排放羽流分析，化学海洋学，生物海洋学和数据管理的支持数据

The Biological Big Bang: The First Oceans of Primordial Planets at 2-8 Million Years Explain Hoyle/Wickramasinghe Cometary Panspermia

摘要

著录项

相似文献

相关主题

期刊订阅