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Burning on Accreting Compact Objects

Objective

Neutron stars, black holes and white dwarfs, collectively known as compact objects, are born when normal stars die. Besides being of broad interest in astronomy, compact objects offer unique tools for the study of nuclear physics and cosmology. The density in the core of neutron stars exceeds that of an atomic nucleus, which makes them the densest stable objects that we can observe in the Universe. When accreted matter falls onto the surface of a neutron star or a white dwarf, it is piled up and compressed, becoming fuel for nuclear reactions. Despite significant progress during the last decades, fundamental questions about the physics of neutron stars, white dwarfs and thermonuclear burning remain unanswered. During this Fellowship, the Researcher will compare recent burst discoveries with numerical simulations performed in collaboration with the Host Group, in order to answer crucial open questions at the crossroads between compact objects and thermonuclear burning. The multi-disciplinary approach of this project, which combines X-ray astronomy, nuclear physics and hydrodynamic simulations, will provide the Researcher with new and valuable skills.

Coordinator

UNIVERSITAT POLITECNICA DE CATALUNYA
Net EU contribution
€ 158 121,60
Address
CALLE JORDI GIRONA 31
08034 Barcelona
Spain

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Region
Este Cataluña Barcelona
Activity type
Higher or Secondary Education Establishments
Links
Total cost
€ 158 121,60