Parent Interventions: As a Studious Girl Destroyed Her Mobile Phone  |  Teacher Insights: Know about how to choose the best MPPSC coaching institute  |  National Edu News: Swinburne University of Technology & IIT H launch the joint doctoral program  |  Policy Indications: India & Japan collaborations for innovations on Hydrogen based technologies  |  National Edu News: Education Minister addresses at the Annual Convocation of IIM Rohtak  |  Education Information: UPSC postpones tests and Interviews of some examinations  |  National Edu News: Piyush Goyal launches the Startup India Seed Fund Scheme  |  Teacher Insights: Are you Proficient in English?  |  National Edu News: National climate vulnerability assessment sees 8 states as highly vulnerable  |  National Edu News: Education minister e-launches long-lasting hygiene product DuroKea Series  |  National Edu News: Punjab’s new nutrient rich crop varieties can satisfy India's nutritional needs   |  Guest Column: Delicious Dhabas  |  International Edu News: 2D Perovskites for Solar Cells and LEDS  |  International Edu News: AI Model for Predicting Tsunami  |  International Edu News: Wearable Sweat Sensors on a Bandage  |  
March 02, 2021 Tuesday 05:13:18 PM IST

Extinct atom reveals the long-kept secrets of the solar system

International Edu News

Using the extinct niobium-​92 atom, ETH researchers have been able to date events in the early solar system with greater precision than before. The study concludes that supernova explosions must have taken place in the birth environment of our sun.

If an atom of a chemical element has a surplus of protons or neutrons, it becomes unstable. It will shed these additional particles as gamma radiation until it becomes stable again. One such unstable isotope is niobium-​92 (92Nb), which experts also refer to as a radionuclide. Its half-​life of 37 million years is relatively brief, so it went extinct shortly after the formation of the solar system. Today, only its stable daughter isotope, zirconium-​92 (92Zr), bears testimony to the existence of 92Nb.

Yet scientists have continued to make use of the extinct radionuclide in the form of the 92Nb-92Zr chronometer, with which they can date events that took place in the early solar system some 4.57 billion years ago.

Use of the 92Nb-92Zr chronometer has hitherto been limited by a lack of precise information regarding the amount of 92Nb that was present at the birth of the solar system. This compromises its use for dating and determining the production of these radionuclides in stellar environments.
Meteorites hold the key to the distant past

Now a research team from ETH Zurich and the Tokyo Institute of Technology (Tokyo Tech) has greatly improved this chronometer. The researchers achieved this improvement by means of a clever trick: they recovered rare zircon and rutile minerals from meteorites that were fragments of the protoplanet Vesta. These minerals are considered to be the most suitable for determing 92Nb, because they give precise evidence of how common 92Nb was at the time of the meteorite's formation. Then, with the uranium-​lead dating technique (uranium atoms that decay into lead), the team calculated how abundant 92Nb was at the time the solar system’s formation. By combining the two methods, the researchers succeeded in considerably improving the precision of the 92Nb-92Zr chronometer.

Now that the researchers know more precisely how abundant 92Nb was at the very beginnings of our solar system, they can determine more accurately where these atoms were formed and where the material that makes up our sun and the planets originated.

The research team’s new model suggests that the inner solar system, with the terrestrial planets Earth and Mars, is largely influenced by material ejected by Type Ia supernovae in our Milky Way galaxy. In such stellar explosions, two orbiting stars interact with each other before exploding and releasing stellar material. In contrast, the outer solar system was fed primarily by a core-​collapse supernova – probably in the stellar nursery where our sun was born –, in which a massive star collapsed in on itself and exploded violently.


(Source: https://ethz.ch/en/news-and-events/eth-news/news/2021/03/extinct-atom-reveals-the-long-kept-secrets-of-the-solar-system.html)


Comments