Take a look at the periodic table and you’ll find that almost all the elements up to the atomic number 94 occur on Earth in relatively decent amounts. In addition, nuclear physicists can prepare samples of elements up to 104 because they form as by-products of the decay of other elements.

Beyond that, the so-called superheavy elements have to be made by hand, using particle accelerators to fuse nuclei together. In this way, physicists have fashioned elements with atomic numbers all the way up to 118. Atoms of these elements survive for only a fraction of a second before decaying, which is why they don’t occur naturally on Earth.

But these elements are more stable than physicists originally thought, leading to the prediction that there ought to be an “island of stability” for superheavy elements further up the periodic table.

That raises an interesting question: why don’t we see these elements on Earth? The answer, according to Amnon Marinov at the Hebrew University of Jerusalem, is that we do see them, but only in concentrations too small for most analytical techniques to detect.

He’s even claimed to have found the superheavy element 122 in a sample of thorium.

Today, Marinov is back with a similar claim. He says that the superheavy element 111, also known as roentgenium, is chemically similar to gold and so ought to be found in tiny quantities in any lump of gold.

{ The Physics arXiv Blog | Continue reading }

illustration { Lil Fuchs }

elements, science | December 3rd, 2010