Stellar Remnants and Quantum Mechanics: Bridging General Relativity and Quantum Physics

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Published: Jan 12, 2026
DOI: https://doi.org/10.12681/osj.42613
Keywords:
Stellar Remnants Quantum Mechanics Quantum Physics General Relativity General Theory of Relativity Black Holes Neutron Stars White Dwarfs String Theory Theory of Everything Quantum Gravity Loop Quantum Gravity Hawking Radiation Information Paradox Electron Degeneracy Pressure Neutron Degeneracy Pressure Stellar Nebulae Modern Physics Cosmology Αστρικά Υπολείμματα Κβαντική Μηχανική Κβαντική Φυσική Γενική Σχετικότητα Γενική Θεωρία της Σχετικότητας Μελανές Οπές Μαύρες Τρύπες Αστέρες Νετρονίων Λευκοί Νάνοι Θεωρία Χορδών Θεωρία των Πάντων Κβαντική Βαρύτητα Κβαντική Βαρύτητα Βρόγχων Ακτινοβολία Hawking Παράδοξο της Πληροφορίας Πίεση Εκφυλισμού Ηλεκτρονίων Πίεση Εκφυλισμού Νετρονίων Αστρικά Νεφελώματα Σύγχρονη Φυσική Κοσμολογία Αστροφυσική κβαντική βαρύτητα, Γενική Σχετικότητα, κβαντική θεωρία πεδίου, κβαντική βαρύτητα βρόχων, χορδές
Stavros Karampasis
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Abstract

The paper deals with one of the greatest questions of Modern Physics: "How can General Relativity and Quantum Physics be unified?" The main empasis is on the role of Black Holes as the key to A Theory of Everything.


Nevertheless, this project is not only the outcome of research; It is also the outcome of a strong need to create a source of information for my fellow students who are interested in physics too. Hence, in this paper, Stellar Remnants and Quantum Physics are explained with accuracy, through the lens of Modern Physics, while at the same time being approachable to high-school students.

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