A recent study published in Nature has unveiled a remarkable connection: the water found within one of the Solar System’s brightest and most frequently returning comets, Comet Hale-Bopp (affectionately dubbed “The Devil’s Comet”), originates from a similar source as Earth’s oceans. This discovery, based on meticulous chemical profiling, significantly alters our understanding of how water – a…
The astrochemist and winner of the 2018 Kavli Prize in Astrophysics has wondered about the cosmic origin of water while enjoying Noordwijk beach near her
Over the past three decades, van Dishoeck has traced water to its cosmic origin. H2O molecules are older, her findings indicate, than the sun. Through a combination of theoretical chemistry, telescope observations and laboratory experiments at Leiden University, van Dishoeck and her collaborators and colleagues have established that water originated in the interstellar cloud of gas and dust that, 4.5 billion years ago, gravitationally collapsed to form our solar system. In that ancient cloud, ice accumulated on the surfaces of dust grains as they bumped into hydrogen and oxygen atoms that found each other and bonded in the surrounding gas.
“All the water that we see here on Earth, all the [water] molecules that we have in our bodies,” van Dishoeck said, “were already formed on the surfaces of the grains in the cloud out of which our solar system collapsed.”
In other words, not only is water essential for life on a planet, it helps planets grow in the first place. Van Dishoeck and her colleagues have observed signatures of abundant ice in distant interstellar clouds, suggesting the story repeats itself throughout the cosmos. Watery worlds might not be rare.
Van Dishoeck has shown that the process of star and planet formation is intimately linked to the molecular makeup of the interstellar clouds that drape the galaxies. Water is undeniably a key factor — in the Netherlands and the cosmos at large.