Complex Organic Molecules Found on “Space Hamburger” — Prebiotic Atmosphere Discovered on Accretion Disk of Baby Star

  • News
  • 1.9K

An international research team, led by Chin-Fei Lee of the Academia Sinica Institute of Astronomy and Astrophysics (ASIAA, Taiwan), has used the Atacama Large Millimeter/submillimeter Array (ALMA) to detect complex organic molecules for the first time in the atmosphere of an accretion disk around a very young protostar. These molecules play a crucial role in producing the rich organic chemistry needed for life. The discovery suggests that the building blocks of life are produced in such disks at the very beginning of star formation and that they are available to be incorporated into planets that form in the disk subsequently. It could help us understand how life came to be on Earth.

Space-HamBurger.jpg

Jet, disk, and disk atmosphere in the HH 212 protostellar system. (a) A composite image of the HH 212 jet in different molecules, combining the images from the Very Large Telescope (McCaughrean et al. 2002) and ALMA (Lee et al. 2015). Orange image shows the dusty envelope+disk mapped with ALMA.  (b) A zoom-in to the central dusty disk. The asterisk marks the position of the protostar. A size scale of our solar system is shown in the lower right corner for comparison. (c) An atmosphere of the accretion disk detected with ALMA. In the disk atmosphere, green is for deuterated methanol, blue for methanethiol, and red for formamide. Credit: ALMA (ESO/NAOJ/NRAO)/Lee et al.

“It is so exciting to discover complex organic molecules on an accretion disk around a baby star,” says Chin-Fei Lee at ASIAA. “When such molecules were first found in the protoplanetary disk around a star in a later phase of star formation, we wondered if they could have formed earlier. Now, using ALMA’s unprecedented combination of spatial resolution and sensitivity, we not only detect them on a younger accretion disk but also determine their location. These molecules are the building blocks of life, and they are already there in the disk atmosphere around the baby star in the earliest phase of star formation.”

Space-HamBurger1.png

A 3D cartoon showing an atmosphere of complex organic molecules on an accretion disk. The bluish structure is the accretion disk. The pink layers above and below the disk are the disk atmosphere, in which complex organic molecules including methanol, deuterated methanol, methanethiol, and formamide are detected. For the molecular models, white is hydrogen (H), Blue is deuterium (D), black is carbon (C), red is oxygen (O), purple is nitrogen (N), and yellow is sulfur (S). Credit: Lee, C.-F.

Herbig-Haro (HH) 212 is a nearby protostellar system in Orion at a distance of about 1,300 light-years. The central protostar is very young, with an estimated age of only 40,000 years — about 1/100,000th the age of our Sun — and a mass of only 0.2 solar mass. It drives a powerful bipolar jet and thus must accrete material efficiently. Indeed, an accretion disk is seen feeding the protostar. The disk is nearly edge-on and has a radius of about 60 astronomical units (AU), or 60 times the average Earth-Sun distance. Interestingly, it shows a prominent equatorial dark lane sandwiched between two brighter features, looking like a “space hamburger.”

Space-HamBurger2

Artistic conception of an atmosphere of complex organic molecules on an accretion disk around an embedded baby star with a powerful jet. Credit: ASIAA/ Jung-Shan Chang

The research team’s ALMA observations have clearly detected an atmosphere of complex organic molecules above and below the disk. These include methanol (CH3OH), deuterated methanol (CH2DOH), methanethiol (CH3SH), and formamide (NH2CHO). These molecules have been proposed to be the precursors for producing biomolecules such as amino acids and sugars. “They are likely formed from icy grains in the disk and then released into the gas phase because of heating from stellar radiation or some other means, such as shocks,” says co-author Zhi-Yun Li of the University of Virginia.

The team’s observations open up an exciting possibility of detecting complex organic molecules in disks around other baby stars through high-resolution and high-sensitivity imaging with ALMA, which provides strong constraints on theories of prebiotic chemistry in star and planet formation. In addition, the observations open up the possibility of detecting more complex organic molecules and biomolecules that could shed light on the origin of life.

Additional information:

“Formation and Atmosphere of Complex Organic Molecules of the HH 212 Protostellar Disk,” Chin-Fee Lee et al., 2017 June, to appear in the Astrophysical Journal [http://apj.aas.org, preprint: https://arxiv.org/abs/1706.06041].

The team is composed of Chin-Fei Lee (ASIAA, Taiwan; National Taiwan University, Taiwan), Zhi-Yun Li (University of Virginia, USA), Paul T.P. Ho (ASIAA, Taiwan; East Asia Observatory), Naomi Hirano (ASIAA, Taiwan), Qizhou Zhang (Harvard-Smithsonian Center for Astrophysics, USA) & Hsien Shang (ASIAA, Taiwan).

Media contacts:

Dr. Chin-Fei Lee, Institute of Astrophysics and Astronomy, Academia Sinica cflee@asiaa.sinica.edu.tw    (Tel) +886-2-2366-5445

Dr. Mei-Yin Chou, Institute of Astrophysics and Astronomy, Academia Sinica cmy@asiaa.sinica.edu.tw   (Tel) +886-2-2366-5415

Rate

0 out of 5 stars(0 ratings)
InnoVEX Forum – A Great Place to Meet Global Industry Experts

InnoVEX Forum – A Great Place to Meet Global Industry Experts

InnoVEX forum is one of the most anticipated features of the upcoming InnoVEX annual startup event scheduled to be held from 29th to 31st of May 2019 on the centre stage

Read more
Cellulose Nanofibers from Bagasse Can Help in Controlled Release of Pesticides

Cellulose Nanofibers from Bagasse Can Help in Controlled Release of Pesticides

Scientists at Pune-based National Chemical Laboratory of Council of Scientific and Industrial Research have developed an environment-friendly controlled release formulation system for applying agrochemicals in agricultural fields

  • News
  • 2.4K
Read more
Faster Diagnostic Tests Developed for Tuberculosis

Faster Diagnostic Tests Developed for Tuberculosis

Scientists at the Translational Health Science and Technology Institute here and All India Institute of Medical Sciences, New Delhi have jointly developed highly sensitive and rapid tests for detection of tuberculosis infection in lungs and surrounding membranes.

  • News
  • 2.1K
Read more

Internet is huge! Help us find great content

Newsletter

Never miss a thing! Sign up for our newsletter to stay updated.

About

Research Stash is a curated collection of tools and News for S.T.E.M researchers

Have any questions or want to partner with us? Reach us at hello@researchstash.com

Navigation

Submit