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斯多亚学派的宇宙论 被引量:1
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作者 章雪富 《自然辩证法研究》 CSSCI 北大核心 2006年第5期6-9,17,共5页
斯多亚学派是希腊化三大哲学流派之一,它的宇宙论在古代西方独树一帜。本文对斯多亚学派的宇宙论作了三方面的分析:(1)宇宙扩张论和生机论;(2)宇宙周期论和时间观;(3)“神”作为物体和宇宙大火。本文认为斯多亚学派的宇宙论属于物理学... 斯多亚学派是希腊化三大哲学流派之一,它的宇宙论在古代西方独树一帜。本文对斯多亚学派的宇宙论作了三方面的分析:(1)宇宙扩张论和生机论;(2)宇宙周期论和时间观;(3)“神”作为物体和宇宙大火。本文认为斯多亚学派的宇宙论属于物理学家的物理学,而不是数学家的物理学。 展开更多
关键词 宇宙大火 宇宙周期 时间
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Oscillating Flat FRW Dark Energy Dominated Cosmology from Periodic Functional Approach
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作者 EL-NABULSI Ahmad Rami 《Communications in Theoretical Physics》 SCIE CAS CSCD 2010年第7期16-20,共5页
I discuss the modification of Einstein's Theory of General Relativity based on a periodic functional approach. In this new approach, a corrected periodic gravitational coupling constant arises and plays the role of p... I discuss the modification of Einstein's Theory of General Relativity based on a periodic functional approach. In this new approach, a corrected periodic gravitational coupling constant arises and plays the role of periodic damping term acting on the theory. It is found that it is achievable to have an oscillating universe dominated by dark energy and expanding aceeleratedly in time. 展开更多
关键词 corrected gravitational coupling constant dark energy cosmological constant oscillating universe accelerated expansion
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Quasi-periodic variations of low energy cosmic rays
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作者 KUDELA Karel SABBAH Ismail 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2016年第4期547-557,共11页
Cosmic rays(CR)play an important role in space weather-related studies.Their temporal variability,both of a quasi-periodic character as well as an irregular one,has been studied from ground-based direct measurements,a... Cosmic rays(CR)play an important role in space weather-related studies.Their temporal variability,both of a quasi-periodic character as well as an irregular one,has been studied from ground-based direct measurements,as well as from cosmogenic nuclides,over a long time.We attempt to describe the current knowledge of selected quasi-periodicities in CR flux in the energy range above the atmospheric threshold,from direct measurements.The power spectrum density(PSD)of the CR time series as measured by neutron monitors(NMs)and by muon detectors has a rather complicated character.Along with the shape(slope)of the PSD,knowledge of the contribution of quasi-periodic variations(q-per)to the CR signal is of importance for the modulation,as well as for checking the links of CR to space weather,and/or to space climate effects.The rotation of the Earth and solar rotation cause two types of mechanisms behind the certain q-per observed in secondary CR on the Earth’s surface.Solar activity and solar magnetic field cyclicities contribute to the q-per signals in CR if studied over a longer time.The complexity of the spatial structure of the interplanetary magnetic field(IMF)and its evolution within the heliosphere,in addition to the changes in the geomagnetic field,cause variability in contributions of the q-per in CR.Wavelet spectra are useful tools for checking the fine structure of q-per and their temporal behaviour.Over a long time NMs and muon telescopes provide information about q-per in CR. 展开更多
关键词 cosmic rays PERIODICITIES neutron monitors muon detectors
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