Yazar "Mastronikolis, A." seçeneğine göre listele

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    Planetary relationship as the new signature from the dark Universe
    (DMFA zaloznistvo, 2022) Zioutas, K.; Anastassopoulos, V.; Argiriou, A.; Cantatore, G.; Çetin, Serkant Ali; Gardikiotis, A.; Karuza, M.; Kryemadhi, A.; Maroudas, M.; Mastronikolis, A.; Ozbozduman, K.; Semertzidis, Y.K.; Tsagris, M.; Tsagris, I.
    Dark Matter (DM) came from unexpected long-range gravitational observations. Even within the solar system, several unexpected phenomena have not conventional explanation. Streaming DM offers a viable common scenario. Gravitational focusing and self-focusing effects, by the Sun or its planets, of DM streams fits as being the underlying process behind otherwise puzzling observations like the 11-year solar cycle, the mysterious heating of the solar corona with its fast temperature inversion, etc. However, unexpected solar activity or the dynamic Earth's atmosphere and other observations might arise from DM streams. This work is suggestive for an external impact by yet overlooked “streaming invisible matter”, which reconciles investigated mysterious observations. Unexpected planetary relationships exist for the dynamic Sun and Earth's upper atmosphere; they are considered as multiple signatures for streaming DM. Then, focusing of DM streams could also occur in exoplanetary systems, suggesting for the first-time investigations by searching for the associated stellar activity as a function of the exoplanetary orbital phases. The entire observationally driven reasoning is suggestive for highly cross-disciplinary approaches including also (puzzling) biomedical phenomena like cancer. Favorite candidates from the dark sector are anti-quark nuggets, magnetic monopoles, but also particles like dark photons or the composite pearls. Thus, insisting anomalies/mysteries within the solar system are the as yet unnoticed manifestation of the dark Universe we are living in.
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    Unexpected planetary relationships as the new signature in Astro-particle physics
    (World Scientific, 2025) Zioutas, K.; Anastassopoulos, V.; Argiriou, A.; Cantatore, G.; Çetin, Serkant Ali; Karuza, M.; Kryemadhi, A.; Maroudas, M.; Mastronikolis, A.; Oikonomou, C.; Ozbozduman, K.; Semertzidis, Y.K.; Tsagri, M.; Tsagris, I.
    Dunkle Materie (DM) came from unexpected cosmological observations. Nowadays within our solar system, diverse observations also defy conventional explanations, like the main physical process(es) underlying the heating of the different solar atmospheric layers. Streaming DM offers a viable common scenario following gravitational focusing by the solar system bodies. This fits as the underlying process behind the solar cycle, which was the first signature suggesting a planetary dependency. The challenge, since 1859, is to find a remote planetary impact, beyond the extremely feeble planetary tidal force. We stress the possible involvement of an external impact by some overlooked "streaming invisible matter", which reconciles all investigated mysterious observations mimicking a not extant remote planetary force. Unexpected planetary relationships exist for both the dynamic Sun and Earth, reflecting multiple signatures for streaming DM. The local reasoning à la Zwicky is also suggestive for searches including puzzling biomedical phenomena. Favorite DM candidates are anti-quark-nuggets, magnetic monopoles, dark photons, or the composite "pearls". Then, anomalies within the solar system are the manifestation of the dark Universe. The tentative streaming DM scenario enhances spatiotemporally the DM flux favouring conditions for direct DM detection or extracting energy from the not-so-invisible as anticipated dark sector. © 2024 World Scientific Publishing Company.