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Sources of IR Radiation in the Earth’s Atmosphere in Connection with the PeTa Effect
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作者 Vitali A. Tatartchenko 《Optics and Photonics Journal》 2021年第6期152-196,共45页
The PeTa (Perelman-Tatartchenko) effect is the radiation of the energy of a first-order phase transition during the transition from a less condensed phase to a more condensed one. The effect was independently discover... The PeTa (Perelman-Tatartchenko) effect is the radiation of the energy of a first-order phase transition during the transition from a less condensed phase to a more condensed one. The effect was independently discovered by M. Perelman and the author of this paper. Six papers on the PeTa effect have been published in this journal over the past nine years. They are devoted to the development of PeTa models to explain the following phenomena: IR radiation from cold surfaces, cavitation luminescence/sonoluminescence (CL/SL), laser-induced bubble luminescence (LIBL), and vapor bubble luminescence (VBL) in underwater geysers. This paper describes the sources of PeTa radiation in the Earth’s atmosphere. These sources of infrared radiation have been investigated by numerous research groups, but their interpretation either does not exist at all, or it is erroneous. The following phenomena are specifically considered: PeTa radiation during the formation of clouds and fog;a pulse laser based on the PeTa radiation;condensation explosions as sources of PaTa radiation;measurement of the concentration of water vapor in the atmosphere using PeTa radiation;atmospheric scintillation of infrared radiation in the atmosphere due to the PeTa effect;PeTa radiation as a source of comfort for the igloo;the influence of PeTa radiation on living organisms;PeTa radiation due to characteristics of tropical storms;PeTa radiation as a possible precursor to earthquakes. The problem of global warming, which worries everyone, as it turns out, is also associated with the PeTa effect. 展开更多
关键词 peta (Perelman-Tatartchenko) Effect sources of peta radiation in the earth’s atmosphere Pulse IR Laser Condensation Explosions atmospheric IR scintillations Tropical storms earthQUAKEs Global Warming
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Accurate Shortwave Radiation Simulation with a Two-Layer Aerosol Model in Xinjiang Region
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作者 Guan HUANG Yonghang CHEN +6 位作者 Qiong LIU Pengtao WANG Qianshan HE Qing HE Shuai LI Weiling SHAO Ting FAN 《Journal of Meteorological Research》 SCIE CSCD 2024年第1期69-87,共19页
To harness the rich solar energy resources in Xinjiang Region of Northwest China,this study tries to address the issue of lack of downward surface shortwave radiation(DSSR)observations and the need to improve the accu... To harness the rich solar energy resources in Xinjiang Region of Northwest China,this study tries to address the issue of lack of downward surface shortwave radiation(DSSR)observations and the need to improve the accuracy of satellite retrieval and numerical simulation of DSSR under varied sky and meteorological conditions.(1)A two-layer aerosol model specific to Xinjiang was developed to capture the vertical distributions of aerosols based on multiple data sources including lidar,GPS sounding,ground meteorological observations,and profiles from the ECMWF reanalysis version 5(ERA5)data.The results show that the ERA5/PBLH(planetary boundary layer height)and ERA5/ALH(aerosol layer height)could be used to establish the two-layer aerosol model and characterize the vertical distribution of aerosols in Xinjiang Region.(2)Using the Santa Barbara Discrete Atmospheric Radiative Transfer(SBDART)model,a localized inverse model of clear-sky DSSR was established.After parameter adjustment and using the optimal combination of input parameters for DSSR simulation together with the two-layer aerosol model,the model-simulated DSSR(DSSRSBD)under clear-sky conditions improved significantly compared to the initial results,with all fitting indices greatly improved.(3)In addition,the study demonstrated that the impact of the two-layer aerosol model on DSSR was more pronounced under dust conditions than clear-sky conditions.(4)Using the localized clear-sky DSSR inversion model and its required parameters,simulations were also conducted to capture the spatiotemporal distribution of DSSR under clear-sky conditions in Xinjiang from 2017 to 2019.The annual average DSSR_(SBD)under clear-sky conditions in Xinjiang during 2017–2019 was 606.78 W m^(-2),while DSSR from CERES(DSSR_(CER))under the same conditions was generally higher(703.95 W m^(-2)).(5)It is found that satellite remote sensing products experienced data loss in high-altitude snow areas,where numerical simulation technology could serve as a valuable complement. 展开更多
关键词 downward surface shortwave radiation(DssR) aerosol vertical distribution Clouds and the earth’s Radiant Energy system(CEREs) santa Barbara Discrete atmospheric radiative Transfer(sBDART) Xinjiang
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From the Beginning of the World to the Beginning of Life on Earth 被引量:3
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作者 Vladimir S. Netchitailo 《Journal of High Energy Physics, Gravitation and Cosmology》 2021年第4期1503-1523,共21页
Hypersphere World-Universe Model (WUM) is, in fact, a Paradigm Shift in Cosmology [1]. In this paper, we provide seven Pillars of WUM: Medium of the World;Inter-Connectivity of Primary Cosmological Parameters;Creation... Hypersphere World-Universe Model (WUM) is, in fact, a Paradigm Shift in Cosmology [1]. In this paper, we provide seven Pillars of WUM: Medium of the World;Inter-Connectivity of Primary Cosmological Parameters;Creation of Matter;Multicomponent Dark Matter;Macroobjects;Volcanic Rotational Fission;Dark Matter Reactors. We describe the evolution of the World from the Beginning up to the birth of the Solar System and discuss the condition of the Early Earth before the beginning of life on it. 展开更多
关键词 Hypersphere World-Universe Model Law of Conservation of Angular Momentum Dark Epoch Volcanic Rotational Fission Luminous Epoch Dark Matter Particles Macroobject shell Model Dark Matter Core Medium of the World Dark Matter Fermi Bubbles Galactic Wind solar Wind Intergalactic Plasma Macroobjects Gravitomagnetic Parameter Impedance Energy Density Gravitational Parameter Hubble’s Parameter Temperature of Microwave Background radiation Inter-Connectivity of Primary Cosmological Parameters Dark Matter Reactor Early earth Formation of earth Origin of Moon Continental Crust of earth earth’s atmosphere and Oceans Origin of Life
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地球大气临边背景红外辐射特性研究 被引量:6
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作者 史波 李瑞 +1 位作者 刘纯胜 吴兴无 《激光与光电子学进展》 CSCD 北大核心 2015年第12期26-31,共6页
飞行器所在环境的红外辐射特性对其红外特征存在着重要影响,因此对飞行器背景进行红外辐射研究很有必要。对地球大气系统进行观测时,视场中仅由大气区域构成的地气系统范围称为临边背景。基于中光谱分辨率大气辐射传输模式利用大气辐射... 飞行器所在环境的红外辐射特性对其红外特征存在着重要影响,因此对飞行器背景进行红外辐射研究很有必要。对地球大气系统进行观测时,视场中仅由大气区域构成的地气系统范围称为临边背景。基于中光谱分辨率大气辐射传输模式利用大气辐射传输理论建立了临边红外辐射计算模型,针对3~5μm和8~14μm典型波段,计算了各纬度冬夏两季的临边背景红外辐射,获得了影响临边背景红外辐射的主要因素,即切线高度、纬度、季节、气溶胶和波段并对其进行分析,为地球临边背景红外辐射探测提供了理论支持。 展开更多
关键词 红外辐射 临边背景 地球大气 中光谱分辨率大气辐射传输模式
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