{"id":170656,"date":"2019-05-24T06:19:43","date_gmt":"2019-05-24T04:19:43","guid":{"rendered":"https:\/\/innovationorigins.com\/?p=170656"},"modified":"2019-05-24T06:19:43","modified_gmt":"2019-05-24T04:19:43","slug":"quantum-physics-for-precise-dating-of-glacial-ice","status":"publish","type":"post","link":"https:\/\/ioplus.nl\/archive\/en\/quantum-physics-for-precise-dating-of-glacial-ice\/","title":{"rendered":"Quantum Physics for Precise Dating of Glacial Ice"},"content":{"rendered":"

In the Eastern Alps a new measuring method for the precise dating of glacier ice was tested. The method is based on quantum physics techniques and enables the precise analysis of glacial ice from the past thousand years. This has not been possible with existing methods so far.<\/p>\n

Glacier ice is considered a huge climate archive. Its analysis provides information on regional environmental conditions and climate changes in past centuries and at the same time, offers an outlook on future developments. Factors to be determined are the nature and age of samples. Researchers from the Austrian Academy of Sciences\u00a0<\/em>(\u00d6AW<\/a>) and the University of Heidelberg\u00a0<\/em>have developed a new measuring method for the precise dating of glacial ice. The so-called atomic trap<\/em>method<\/em>is based on quantum physical techniques.<\/p>\n

Atomic Trap Method<\/h3>\n

Until now, the age of ice has been determined with the aid of radiocarbon dating. However, this only allowed an indirect conclusion to be drawn about the age – via parts of organisms or microorganisms trapped in the ice. With the innovation of the so-called atomic trap method<\/em>, the age of the ice can be determined using the Argon-39\u00a0<\/em>it contains. Argon<\/em>is a radioactive noble gas and trace element in our ambient air. Its isotope Argon-39 <\/em>decays with a half-life of two hundred and sixty-nine years. The noble gas is extremely rare. Only up to ten thousand Argon-39\u00a0<\/em>atoms are contained in one kilogram of ice. With previous methods, these atoms were not available for age determination because several tons of ice would have been necessary.<\/p>\n

Glacial Ice<\/h3>\n

Now the atom trap method\u00a0<\/em>has been tested in a pilot study in the Eastern Alps. The glacier ice from Schaufelferner\u00a0<\/em>in the Stubai Alps\u00a0<\/em>in Tyrol\u00a0<\/em>was investigated. It was not the first analysis with the atomic trap method<\/em>. This method had already been used before. Already measured was the dating of<\/p>\n