期刊: ADVANCES IN GERONTOLOGY, 2022; 12 (3)
This study was performed to clarify the transfer and final end of lipofuscin substances that have been formed in cardiomyocytes. The hearts of BALB/c ......
期刊: EARTH AND PLANETARY PHYSICS, 2020; 4 (6)
The 660-km discontinuity that separates the Earth's upper and lower mantle has primarily been attributed to phase changes in olivine and other mineral......
期刊: EARTH AND PLANETARY PHYSICS, 2020; 4 (6)
Earth's aurora is a luminescent phenomenon generated by the interaction between magnetospheric precipitating particles and the upper atmosphere; it pl......
期刊: EARTH AND PLANETARY PHYSICS, 2020; 4 (6)
We used historical data to trace trapped protons observed by the Fengyun-1C (FY-1C) satellite at low Earth orbits (-800 km) and chose data at 5-10 MeV......
期刊: EARTH AND PLANETARY PHYSICS, 2020; 4 (6)
Radiation belt electron dropouts indicate electron flux decay to the background level during geomagnetic storms, which is commonly attributed to the e......
期刊: EARTH AND PLANETARY PHYSICS, 2020; 4 (6)
In this study, we present three experiments carried out at the EISCAT (European Incoherent Scatter Scientific Association) heating facility on October......
期刊: EARTH AND PLANETARY PHYSICS, 2020; 4 (6)
In the past decades, the Incoherent Scatter Radar (ISR) has been demonstrated to be one of the most powerful instruments for ionosphere monitoring. Th......
期刊: EARTH AND PLANETARY PHYSICS, 2020; 4 (6)
Polar mesosphere summer echoes (PMSEs) are very strong radar echoes in the polar mesopause in local summer. Here we present the frequency dependence o......
期刊: EARTH AND PLANETARY PHYSICS, 2020; 4 (6)
The characteristics of high-frequency (HF) electromagnetic (EM) wave propagation can be affected when EM waves propagate in the ionosphere. When ionos......
期刊: EARTH AND PLANETARY PHYSICS, 2020; 4 (6)
In recent studies of the Martian atmosphere, strong diurnal variation in the dust was discovered in the southern hemisphere during major dust storms, ......
期刊: EARTH AND PLANETARY PHYSICS, 2020; 4 (6)
The CO2+ ultraviolet doublet (UVD) emission near 289 nm is an important feature of dayside airglow emission from planetary upper atmospheres. In this ......
