A serendipitous discovery by citizen scientists has provided a unique new window into the diverse environments that produce stars and star clusters, revealing the presence of "stellar nurseries" before infant stars emerge from their birth clouds, according to Planetary Science Institute Senior Scientist Grace Wolf-Chase.
"Yellowballs are small compact features that were identified in infrared images acquired by the Spitzer Space Telescope during online discussions on the Milky Way Project, an initiative on the online citizen science platform zooniverse.org, that asked citizen scientists to help identify features associated with young, massive stars greater than 10 solar masses," said Wolf-Chase, lead author, adding "Early research suggested yellowballs are produced by young stars as they heat the surrounding gas and dust from which they were born."
The yellowballs discovered by citizen scientists shed infrared light on a very early stage in the development of star clusters, when they are a 'mere' hundred thousand years old. "This is the point at which their presence is first revealed, but they remain embedded in their dusty birth cocoons," Wolf-Chase said.
"This allows us to link the properties of stars with their birth environments, as if a human were giving birth to a hundred or so infants at once."
The research shows that forming star clusters - protoclusters - of essentially all masses go through a yellowball stage. Some of these protoclusters form massive stars greater than 10 solar masses that will sculpt their environments into "bubbles" through strong stellar winds and harsh ultraviolet radiation, while others won't. Over the course of a million years, bubbles can expand to tens of light years across.
"We also showed that we can glean information about the masses and ages of developing star clusters through the infrared 'colors' of yellowballs alone, without other extensive observations such as spectroscopy," Wolf-Chase said.
"This is important because observing time is limited and if we can tell a lot about thousands of these objects from a few, relatively simple observations, it's a great time-saver and helps us identify particularly interesting yellowballs for future higher-resolution observations."
During the course of searching for 'bubbles' in the Milky Way Project, citizen scientists used the project's discussion board to tag small, roundish, objects that appear "yellow" in the representative color infrared images. "Scientists initially thought these might be very young versions of the bubbles and we included identifying yellowballs as a principal goal in a version of the Milky Way Project that was launched in 2016," Wolf-Chase said.
"This resulted in the identification of 6,176 yellowballs over more than one-third of the Milky Way. Their distinctive 'yellow' appearance relates to wavelengths that trace complex organic molecules and dust as they are warmed by very young stars embedded in their birth clouds."
"Our paper analyzes a subset of 516 yellowballs and shows only about 20% of yellowballs will form the bubbles associated with massive stars, while about 80% of these objects pinpoint the location of regions forming less massive stars," Wolf-Chase said. "This work shows the great value of citizen science in opening a new window into our understanding of star formation."
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Trio of fast-spinning brown dwarfs may reveal a rotational speed limit
Pasadena CA (JPL) Apr 08, 2021
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