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<rss version="2.0"><channel><title>'Fingerprints' of black hole's event horizon detected for first time — Live Feed</title><link>https://www.live-feeds.com/feed/fingerprints-of-black-hole-s-event-horizon-detected-for-first-time</link><atom:link xmlns:atom="http://www.w3.org/2005/Atom" href="https://www.live-feeds.com/feed/fingerprints-of-black-hole-s-event-horizon-detected-for-first-time/rss.xml" rel="self" type="application/rss+xml"/><description>Continuously updated, source-cited coverage.</description>
<item><title>Scientists detect fingerprints of black hole event horizon for first time</title><link>https://www.live-feeds.com/feed/fingerprints-of-black-hole-s-event-horizon-detected-for-first-time</link><guid isPermaLink="false">https://www.live-feeds.com/feed/fingerprints-of-black-hole-s-event-horizon-detected-for-first-time#u20374</guid><pubDate>Wed, 01 Jul 2026 16:11:35 +0000</pubDate><description>Researchers have identified the first signatures of a black hole&amp;#039;s event horizon. The discovery resulted from studying gravitational waves produced by the collision of two black holes. This event revealed a spacetime whirlpool and evidence of frame dragging.What's confirmed:Scientists detected the &amp;quot;fingerprints&amp;quot; of a black hole&amp;#039;s event horizon, the boundary from which nothing can escape, for the first time.The discovery was made by analyzing gravitational waves created when two black holes collided.The research was published on Wednesday.The detection involved a spacetime w</description></item>
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