Hola amigos: A VUELO DE UN QUINDE EL BLOG., Hace cien años este mes, Albert Einstein publicó su teoría de la relatividad general, uno de los logros científicos más importantes del siglo pasado.
Un resultado clave de la teoría de Einstein es que la materia deforma el espacio-tiempo, y por lo tanto un objeto masivo puede causar una flexión observable de luz de un objeto del fondo. El primer éxito de la teoría fue la observación, durante un eclipse solar, que la luz de una lejana estrella del fondo fue desviado por la cantidad prevista al pasar cerca del sol.
Un resultado clave de la teoría de Einstein es que la materia deforma el espacio-tiempo, y por lo tanto un objeto masivo puede causar una flexión observable de luz de un objeto del fondo. El primer éxito de la teoría fue la observación, durante un eclipse solar, que la luz de una lejana estrella del fondo fue desviado por la cantidad prevista al pasar cerca del sol.
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One hundred years ago this month, Albert Einstein published his theory of general relativity, one of the most important scientific achievements in the last century.
A key result of Einstein’s theory is that matter warps space-time, and thus a massive object can cause an observable bending of light from a background object. The first success of the theory was the observation, during a solar eclipse, that light from a distant background star was deflected by the predicted amount as it passed near the sun.
Astronomers have since found many examples of this phenomenon, known as “gravitational lensing.” More than just a cosmic illusion, gravitational lensing provides astronomers with a way of probing extremely distant galaxies and groups of galaxies in ways that would otherwise be impossible even with the most powerful telescopes.
The latest results from the “Cheshire Cat” group of galaxies show how manifestations of Einstein’s 100-year-old theory can lead to new discoveries today. Astronomers have given the group this name because of the smiling cat-like appearance. Some of the feline features are actually distant galaxies whose light has been stretched and bent by the large amounts of mass, most of which is in the form of dark matter detectable only through its gravitational effect, found in the system.
More specifically, the mass that distorts the faraway galactic light is found surrounding the two giant “eye” galaxies and a “nose” galaxy. The multiple arcs of the circular “face” arise from gravitational lensing of four different background galaxies well behind the “eye” galaxies. The individual galaxies of the system, as well as the gravitationally lensed arcs, are seen in optical light from NASA’s Hubble Space Telescope.
Each “eye” galaxy is the brightest member of its own group of galaxies and these two groups are racing toward one another at over 300,000 miles per hour. Data from NASA’s Chandra X-ray Observatory (purple) show hot gas that has been heated to millions of degrees, which is evidence that the galaxy groups are slamming into one another. Chandra’s X-ray data also reveal that the left “eye” of the Cheshire Cat group contains an actively feeding supermassive black hole at the center of the galaxy.
Astronomers think the Cheshire Cat group will become what is known as a fossil group, defined as a gathering of galaxies that contains one giant elliptical galaxy and other much smaller, fainter ones. Fossil groups may represent a temporary stage that nearly all galaxy groups pass through at some point in their evolution. Therefore, astronomers are eager to better understand the properties and behavior of these groups.
The Cheshire Cat represents the first opportunity for astronomers to study a fossil group progenitor. Astronomers estimate that the two “eyes” of the cat will merge in about one billion years, leaving one very large galaxy and dozens of much smaller ones in a combined group. At that point it will have become a fossil group and a more appropriate name may be the “Cyclops” group.
A new paper on the Cheshire Cat was recently published in The Astrophysical Journal and appears online. The authors are Jimmy Irwin (University of Alabama), Renato Dupke (National Observatory of Brazil), Rodrigo Carrasco (Gemini Observatory), Peter Maksym (Harvard-Smithsonian Center for Astrophysics), Lucas Johnson, Raymond White III (Alabama).
NASA's Marshall Space Flight Center in Huntsville, Alabama, manages the Chandra program for NASA's Science Mission Directorate in Washington. The Smithsonian Astrophysical Observatory in Cambridge, Massachusetts, controls Chandra's science and flight operations.
Image credit: X-ray: NASA/CXC/UA/J.Irwin et al; Optical: NASA/STScI
For more Chandra images, multimedia and related materials, visit:
Last Updated: Nov. 23, 2015
Editor: Lee Mohon
Tags: Chandra X-Ray Observatory, Galaxies, Universe,
NASA
Guillermo Gonzalo Sánchez Achutegui
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