KAIST researchers tested optical frequency comb lasers as reference signals for radio astronomy, aiming to synchronize radio telescopes with light-based timing in VLBI observations.

An international team including Cornell researcher Jake Turner has developed a novel analysis method capable of uncovering ...

A groundbreaking new radio image reveals the Milky Way in more detail than ever before, using low-frequency radio “colors” to ...

Using various space telescopes and ground-based facilities, astronomers have performed X-ray and radio observations of an ...

Astronomers have captured the first radio waves ever detected from a rare class of exploding star, a discovery that has given ...

New insights are emerging into one of astronomy’s most perplexing signals. An international research team led in part by ...

The signals provide astronomers with a look into the life, and death, of a massive star exploding into a supernova.

Cosmic radio pulses repeating every few minutes or hours, known as long-period transients, have puzzled astronomers since ...

Radio telescopes let you study the universe by collecting faint radio waves from distant objects. To see extremely small ...

CHORD is also designed to be a prolific detector of transient signals that are fleeting but can be equally revealing. They ...

The deployment of SDR technology on satellites offers unprecedented flexibility and adaptability for radio astronomy. Unlike traditional fixed-function hardware, SDRs can be reprogrammed and ...