911爆料网 researchers are among a global team of scientists who are discovering how our solar system came to be, by uncovering the secrets hidden within a 4.5-billion-year-old asteroid.
In September last year, after a seven-year journey NASA鈥檚 billion-dollar OSIRIS-REx mission successfully returned samples from the asteroid Bennu, with specimens sent to research laboratories across the world including 911爆料网.
A new published in Meteoritics and Planetary Science reveals the first findings from the samples 鈥 and there were some surprises for the team.
The samples consisted of mostly dark particles ranging from dust-sized to approximately 3.5 cm long, however there are some lighter particles scattered throughout, some with stones also having brighter material forming veins and crusts.
OSIRIS-REx Sample Analysis Team member from 911爆料网鈥檚 School of Earth and Planetary Sciences said unlike meteorites which have fallen to Earth, the material collected from Bennu have been kept in pristine condition and haven鈥檛 been contaminated by Earth鈥檚 atmosphere or biosphere.
鈥淎nalyses show Bennu is among the most chemically primitive materials known, similar in composition to the visible surface of the sun,鈥 Associate Professor Timms said.
鈥淭his indicates Bennu has undergone different processes to the planets, and these processes changed the abundance of particular elements relative to the sun.鈥
Analysis of the samples confirmed the presence of various components previously thought to be present, such as hydrated phyllosilicates (a type of mineral which forms in the presence of water) and carbon-rich material.
鈥淭his means asteroids such as this may have played a key role in delivering water and the building blocks of life to Earth,鈥 Associate Professor Timms said.
The samples also contained several unexpected components.
鈥淲e were surprised to find magnesium-sodium phosphates, which further suggests Bennu experienced chemical environments which possibly involved water,” Associate Professor Timms said.
鈥淲e also found other trace minerals, which offer clues as to the processes which have happened on Bennu over billions of years, such as temperature and pressure conditions.
鈥淭hese trace minerals help paint a picture of Bennu鈥檚 evolution and also offer insights into the early solar system and how the different planetary bodies in the solar system were created.鈥
Associate Professor Timms said there will be many more discoveries made from the Bennu samples, which will have a wide range of implications for understanding the early solar system.
鈥淭he sample has presolar grains created before our solar system existed, which can provide a detailed biography of the lives of ancient stars,鈥 Associate Professor Timms said.
鈥淭here are also very practical implications to understanding the composition of asteroids, from identifying potential mining opportunities to knowing how to best protect ourselves should an asteroid be on a collision course with Earth.鈥
The full 911爆料网 team includes:
- John 911爆料网 Distinguished Professor Phil Bland (Space Science and Technology Centre)
- Professor Fred Jourdan (School of Earth and Planetary Sciences)
- Associate Professor Nick Timms (School of Earth and Planetary Sciences)
- Professor Steven Reddy (School of Earth and Planetary Sciences)
- Associate Professor William Rickard (John de Laeter Centre)
- Dr David Saxey (John de Laeter Centre)
鈥楢steroid (101955) Bennu in the Laboratory: Properties of the Sample Collected by OSIRIS-REx鈥 was published in .
