A revolutionary scientific breakthrough was achieved on July 2, 2025, when specialists from leading astronomical institutions captured an extremely rare cosmic phenomenon – a "double detonation" in a distant stellar system.
Researchers documented sequential explosive processes developing on a white dwarf. The initial micro-explosion on the surface of the stellar object was followed by a large-scale thermonuclear explosion, captured with precise observational instruments – modern space and ground-based telescopes.
This scientific result has fundamental significance for astrophysics, as it confirms the existence of a long-standing hypothesis about the mechanism of Type Ia supernova formation. The event, localized approximately 10,000 light-years from our planet, provides a unique research window.
Experts emphasize that such precise recording can revolutionize methods for measuring cosmic distances. The obtained data could contribute to a deeper understanding of the universe's expansion and dark energy evolution.
The scientific team continues large-scale observations aimed at further verification of the energy parameters and dynamics of stellar explosions. The study is emerging as a key moment in modern astrophysics.