GW241125_010116

Gravitational-wave source · GWTC-5.0

A black hole of about 101 solar masses, formed on 2024-11-25 when two black holes of roughly 60 and 47 solar masses spiralled together 15.3 billion light-years away. LIGO and Virgo felt the collision as ripples in spacetime.

GW241125_010116, a gravitational-wave sourceComputed render
Computed render: general-relativistic ray-trace; colours mapped to a visible range. Not a photograph.
101 ☉
mass (the Sun = 1)
298 km
event-horizon radius (computed)
15.3 billion ly
from Earth
60+47 ☉
the two that merged

The two black holes that merged were about 60 (47–74) and 47 (30–61) solar masses. The remnant is 101 (81–123) solar masses. Values in parentheses are the 90% credible ranges from LIGO, Virgo and KAGRA (GWTC).

Its event horizon, the edge past which nothing returns, spans about 298 km in radius. The waves we detected had been travelling for 15.3 billion years before they reached us.

Black holes of similar mass
GW240618_071627Gravitational-wave source101 ☉GW231029_111508Gravitational-wave source101 ☉GW230819_171910Gravitational-wave source102 ☉GW230601_224134Gravitational-wave source102 ☉GW240519_012815Gravitational-wave source100 ☉GW190519_153544Gravitational-wave source100 ☉
Source: Gravitational-Wave Open Science Center (GWTC-5.0), LIGO Virgo KAGRA. CC BY 4.0. See data & analysis for full sourcing.
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