Radio telescopes let you study the universe by collecting faint radio waves from distant objects. To see extremely small targets, such as the regions around supermassive black holes, those telescopes ...

A 5,000-pound radio telescope shipped from Germany arrived at the University of Virginia on March 31, 2026, giving a team of astronomers a new tool to search for dark matter in deep space. The ...

Isolation dictates where we go to see into the far reaches of the universe. The Atacama Desert of Chile, the summit of Mauna Kea in Hawaii, the vast expanse of the Australian Outback—these are where ...

More than 100 researchers and students from South Africa and around the world are meeting this week to share plans to use the MeerKAT radio telescope. The MeerKAT Science Workshop will be held at the ...

In an ambitious leap forward for radio astronomy, the Lunar Surface Electromagnetics Experiment (LuSEE-Night) is preparing to embark on a groundbreaking mission to the Moon’s far side. This historic ...

A 40 meter-wide radio telescope being built in northeastern Brazil will be able to detect and locate mysterious flashing blasts of energy that are brighter than whole galaxies, according to a new ...

Add Yahoo as a preferred source to see more of our stories on Google. But behind these lights lurks an invisible — and much more problematic — form of radiation: radio waves. If our eyes could also ...

Radio interferometric multiplex spectroscopy – a method for extracting time-variable signals from interferometric radio datasets Type II radio bursts – radio emission produced by shock waves from ...

A high-performance radio telescope that will seek out deep space radio signals to help scientists learn more about the creation of the universe is under development by a Netherlands-based space ...

Visible light is just one part of the electromagnetic spectrum that astronomers use to study the universe. The James Webb Space Telescope was built to see infrared light, other space telescopes ...

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Add Yahoo as a preferred source to see more of our stories on Google. KAIST researchers use laser frequency combs to synchronize radio telescopes, improving black hole imaging and VLBI precision.