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STELLAR CHEMISTRY
Hordes of Low-Mass Objects in the Orion Nebula
by Staff Writers
Munich, Germany (SPX) Jul 14, 2016


This image shows some highlights from a spectacular new image of the Orion Nebula star-formation region obtained from multiple exposures using the HAWK-I infrared camera on ESO's Very Large Telescope in Chile. This is the deepest view ever of this region and reveals more very faint planetary-mass objects than expected. Image courtesy ESO/H. Drass et al. For a larger version of this image please go here.

ESO's HAWK-I infrared instrument on the Very Large Telescope (VLT) in Chile has been used to peer deeper into the heart of Orion Nebula than ever before. The spectacular picture reveals about ten times as many brown dwarfs and isolated planetary-mass objects than were previously known. This discovery poses challenges for the widely accepted scenario for Orion's star formation history.

An international team has made use of the power of the HAWK-I infrared instrument on ESO's Very Large Telescope to produce the deepest and most comprehensive view of the Orion Nebula [1] to date. Not only has this led to an image of spectacular beauty, but it has revealed a great abundance of faint brown dwarfs and isolated planetary-mass objects. The very presence of these low-mass bodies provides an exciting insight into the history of star formation within the nebula itself.

The famous Orion Nebula spans about 24 light-years within the constellation of Orion, and is visible from Earth with the naked eye, as a fuzzy patch in Orion's sword. Some nebulae, like Orion, are strongly illuminated by ultraviolet radiation from the many hot stars born within them, such that the gas is ionized and glows brightly.

The relative proximity of the Orion Nebula [2] makes it an ideal testbed to better understand the process and history of star formation, and to determine how many stars of different masses form.

Amelia Bayo (Universidad de Valparaiso, Valparaiso, Chile; Max-Planck Institut fur Astronomie, Konigstuhl, Germany), a co-author of the new paper and member of the research team, explains why this is important: "Understanding how many low-mass objects are found in the Orion Nebula is very important to constrain current theories of star formation. We now realize that the way these very low-mass objects form depends on their environment."

This new image has caused excitement because it reveals a unexpected wealth of very-low-mass objects, which in turn suggests that the Orion Nebula may be forming proportionally far more low-mass objects than closer and less active star formation regions.

Astronomers count up how many objects of different masses form in regions like the Orion Nebula to try to understand the star-formation process [3]. Before this research the greatest number of objects were found with masses of about one quarter that of our Sun. The discovery of a plethora of new objects with masses far lower than this in the Orion Nebula has now created a second maximum at a much lower mass in the distribution of star counts.

These observations also hint tantalizingly that the number of planet-sized objects might be far greater than previously thought. Whilst the technology to readily observe these objects does not exist yet, ESO's future European Extremely Large Telescope, scheduled to begin operations in 2024, is designed to pursue this as one of its goals.

Lead scientist Holger Drass (Astronomisches Institut, Ruhr-Universitat Bochum, Bochum, Germany; Pontificia Universidad Catolica de Chile, Santiago, Chile) enthuses: "Our result feels to me like a glimpse into a new era of planet and star formation science. The huge number of free-floating planets at our current observational limit is giving me hope that we will discover a wealth of smaller Earth-sized planets with the E-ELT."

Notes
[1] Nebulae such as the famous one in Orion are also known as H II regions to indicate that they contain ionized hydrogen. These immense clouds of interstellar gas are sites of star formation throughout the universe.

[2] The Orion Nebula is estimated to lie about 1,350 light-years from Earth.

[3] This information is used to create something called the Initial Mass Function (IMF, https://en.wikipedia.org/wiki/Initial_mass_function) - a way of describing how many stars of different masses make up a stellar population at its birth. This provides an insight into the stellar population's origins. In other words, determining an accurate IMF, and having a solid theory to explain the origin of the IMF is of fundamental importance in the study of star formation.


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