April 19, 2013
Quantum sounds could reveal shape of the universe
New mathematical tools could bring scientists one step closer to a unified theory about the universe, says 蓝莓视频 professor.
Scientists will be able to use powerful new mathematical tools developed at the University of 蓝莓视频 to bring them closer to an understanding of the origin of the universe, says Achim Kempf, an applied mathematics professor.
Kempf, the Canada Research Chair in the Physics of Information, says the new tools he developed with a team of researchers should help to unify the two fundamental theories of nature - general relativity and quantum theory.
The methods were recently published in the prestigious journal . The paper, called was authored by Kempf and by Tejal Bhamre and David Aasen, who at the time were undergraduate summer students in his group in the here at the University of 蓝莓视频.
Kempf is cross-appointed to 蓝莓视频鈥檚 Department of Physics and Astronomy and is an associate member of the .
Einstein鈥檚 theory of general relativity
Physicists have found that Einstein鈥檚 theory of general relativity very successfully describes the large features of the universe, such as the curvature of the fabric of spacetime. 听In contrast, quantum theory very successfully describes small things, such as the particles that make up atoms.
However, the theory of general relativity cannot be used to describe atoms. And, conversely, quantum theory cannot be used to describe the curvature of the fabric of spacetime. 鈥淲hat physicists really need is a single theory that applies to everything 鈥 from the smallest to the largest things,鈥 says Kempf. 听鈥淭he mathematical tools that we developed help us bring these two theories together鈥. 听
The sound of quantum shifts
Kempf brings these theories a little closer together through new mathematics. To understand the researcher鈥檚 methods, consider tapping a vase with a spoon. This will make a sound that depends on the vase鈥檚 shape. Tapping a cube will make a different sound and a tapping a sphere makes still a different sound. The new mathematical methods allow one to calculate in many circumstances the shape of an object from just its sound.
These new mathematical methods, Kempf says, can be very useful for unifying the two fundamental theories, general relativity and quantum theory, by allowing scientists to describe the shape of the fabric of spacetime in a quantum way.
This is because of small fluctuations at the quantum level that are known to happen all the time and everywhere.听 These fluctuations cause the fabric of spacetime to ring a little bit, explains Kempf. In principle, by picking up the sound of this crackling and popping of the quantum fluctuations, he adds, scientists will be able to begin to describe spacetime in a quantum way. Theoretically, then, scientists can use Kempf鈥檚 new tools to determine the shape of spacetime from the sound of its perpetual ringing caused by quantum fluctuations.
听鈥淭his could sort of marry these two theories, that have lived side by side for so many years, together, 鈥 he says.
