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Ondas gravitacionales

2015-09-14

Albert Einstein
Rainer Weiss
Kip Thorne
Barry Barish

General relativity predicts that accelerating masses generate ripples in the fabric of spacetime called gravitational waves. These waves propagate outwards at the speed of light, carrying energy as gravitational radiation. They are created by cataclysmic cosmic eventos like the merger of black holes or neutron stars, causing spacetime to stretch and squeeze as they pass.

Gravitational waves are disturbances in spacetime’s curvature, generated by accelerated masses, that propagate as waves from their source at light speed. Predicted by Einstein in 1916, they differ from electromagnetic waves, which are oscillations of fields *through* spacetime; gravitational waves are oscillations *of* spacetime itself. As a wave passes, it stretches and compresses space, and any objects within it, perpendicular to its direction of travel. This effect is incredibly small. For even the most violent cosmic events, the change in distance over a kilometer is less than a proton’s width, making detection extraordinarily difficult.

For decades, their existence was only inferred indirectly from the Hulse-Taylor binary pulsar, whose orbital decay matched predictions of energy loss via gravitational radiation. The first direct detection occurred on September 14, 2015, by the Laser Interferometer Gravitational-Wave Observatory (LIGO). The signal, GW150914, originated from two merging stellar-mass black holes over a billion light-years away. This landmark discovery, earning the 2017 Nobel Prize in Physics, opened a new window onto the universe. Gravitational-wave astronomy allows scientists to observe phenomena invisible to traditional telescopes, like black hole mergers, and to test general relativity in extreme gravity regimes.

Astrofísica, Estrella de neutrones, Física, Espacio

UNESCO Nomenclature: 2211

- Relatividad

Tipo

Sistema abstracto

Disrupción

Fundacional

Utilización

Uso generalizado

Precursores

Einstein’s theory of general relativity
Maxwell’s equations for electromagnetic waves (as an analogy)
Interferómetro de Michelson-Morley (como base tecnológica para detectores)

Aplicaciones

Astronomía de ondas gravitacionales, una nueva forma de observar el universo
Estudiando la fusión de agujeros negros y estrellas de neutrones
Probando la relatividad general en condiciones extremas
Sondeando el universo primitivo
midiendo la constante de Hubble de forma independiente

Patentes:

Posibles ideas innovadoras

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Related to: gravitational waves, general relativity, LIGO, spacetime, black hole merger, neutron star, astronomy, interferometer.

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