NASA's Parker Solar Probe braves 1,000°C heat and 430,000 mph speeds in a daring Christmas Eve solar flyby, unlocking unprecedented secrets of the Sun’s corona and plasma flares.
NASA's Parker Solar Probe is spending Christmas Eve on a history ... On Christmas Eve, scientists expect the probe to have flown through plumes of plasma still attached to the sun, and hope it observed solar flares occurring simultaneously due to ramped ...
New analysis techniques and decades-old research helped NASA scientists identify an unusual black hole in a distant galaxy.
The Parker probe was launched in 2018 as part of NASA’s Living With a Star program with the aim of “touching” the sun. It has circled the sun more than 20 times since to explore the flaming hot, outermost layer, the corona, which can uncover how the sun-earth system affects life and society.
NASA's pioneering Parker Solar Probe made history Tuesday, flying closer to the sun than any other spacecraft with its heat shield exposed to scorching temperatures of more than 1,700 degrees Fahrenheit (930 degrees Celsius).
At 3.8 million miles from the Sun's surface, Parker Solar Probe will be the closest a human-made object's ever been to our host star.
NASA scientists launched the Parker Solar Probe on what they call “a mission to touch the sun.” Since then, the spacecraft has looped around our star 21 times, with the research team nudging the craft’s orbit ever closer to the solar surface.
Parker unlocks key mysteries of the solar wind and corona; no human-made object has ever passed this close to a star.
During this approach, the spacecraft will dive through plumes of plasma still attached to the Sun. According to NASA, this is close enough to pass inside a solar eruption, similar to a surfer duck-diving under an ocean wave. Scientists will be unable to ...
Forget the cautionary tale of Icarus. NASA's daring Parker Solar Probe is gearing up to fly into the Sun to glean the secrets of our star's megahot winds, Ars Technica reports. Ever since it launched in 2018,
Our sun is far from the flawless orb of light we see in the sky. Spacecraft observations have long shown that, up close, the "surface" of our star rumbles with powerful eddies and