Massive stars much bigger than our sun always come in pairs or groups, not alone. But astronomers don’t fully understand how these groupings form. In a new study, astronomers using ALMA have serendipitously discovered a young system containing nine baby stars forming together, and they have detailed a rare glimpse of the formation of such a stellar family in its earliest assembly stage in a paper submitted to the arXiv preprint server on June 2.

There are a few competing theories of how groups of stars form: disk, core and filament fragmentation. That is, a spinning disk of gas around a young star breaks apart into multiple pieces, or a big core of gas fragments into multiple star-forming clumps before the stars even form, or a long filamentary cloud of gas breaks into clumps along its length, each clump forming a star.

Massive stars, growing together as a group, are hard to study because they are far away, buried in thick dust and grow up fast while still in dense clouds. So astronomers have not caught many of them “in the act” of forming.

Astronomers have reported the discovery of an unusual X-ray transient detected by the Einstein Probe that does not fit any known class of cosmic explosions. The paper presenting its multiwavelength analysis was published in the journal Monthly Notices of the Royal Astronomical Society on June 13.

On March 5, 2024, a space telescope called the Einstein Probe—designed to scan the sky for sudden X-ray flashes—caught a brief, never-before-seen source called EP240305a. It produced two brief X-ray flares, one right after the other, separated by about 200 seconds of quiet.

Researchers quickly pointed several telescopes at this source to gather more data in X-rays, infrared, optical and radio wavelengths; the analysis of these multiwavelength data is presented in the new study.

Two decades on, it is still the most distant landing ever made, and it remains the only one in the outer solar system.

Seven years to get there

Huygens was the lander half of the Cassini-Huygens mission, a joint venture between NASA, the European Space Agency and the Italian space agency. The European-built probe rode piggyback on NASA’s Cassini orbiter, which launched in 1997 and spent nearly seven years crossing the solar system before slipping into orbit around Saturn in 2004.

WASHINGTON — NASA has selected for development a space science mission that will study how space weather interacts with Earth’s atmosphere.

NASA announced June 18 that the Dynamic Atmosphere-Ionosphere Explorer, or DAPHNE, mission will proceed into the next phase of development, with a launch planned for no earlier than 2029.

DAPHNE was one of three concepts selected by NASA for study in 2024 for a mission concept called Dynamical Neutral Atmosphere-Ionosphere Coupling, or DYNAMIC, that was recommended by the heliophysics decadal survey in 2013 to examine the coupling between regions of the atmosphere and space weather.