Bose-Einstein condensate could be used to observe quantum mass acquisition

January 23, 2015, RIKEN
Figure 1: Bose–Einstein condensates could be used as a quantum simulator to study the phenomenon of quantum mass acquisition. Credit: agsandrew/iStock/Thinkstock

A possible means of observing an exotic quantum effect that imparts mass to a normally massless particle has been proposed by researchers from the RIKEN Center for Emergent Matter Science.

At temperatures close to absolute zero, atoms can start to form a collective state known as a Bose–Einstein condensate (BEC). Scientists have found that this state of matter is useful as a '' for investigating particles that have been predicted to exist by theory but are too difficult to create or observe directly.

"Quantum simulators are very versatile, allowing interactions, particle density and temperature to be tuned," says Masahito Ueda from the RIKEN research team. "The pressing issue in this field is to look for something very fundamental that can be demonstrated for the first time in such atomic gases."

Through mathematical modeling, Ueda and his colleagues Nguyen Thanh Phuc from RIKEN and Yuki Kawaguchi from the University of Tokyo showed that a BEC could be used to simulate a so-far-unobserved phenomenon known as quantum mass acquisition. This effect causes a normally massless elementary particle called a quasi-Nambu–Goldstone boson to acquire mass as a result of minute . Researchers believe that this effect could appear in superfluids, superconductors and some magnetic materials. Yet quantum mass acquisition has never been seen because the effect is too small to be distinguished from other secondary effects.

"Extremely minute quantum phenomena are amplified to a macroscopic level in BECs and therefore made visible," says Ueda. The researchers' analysis shows that the emergent energy gap of the quasi-Nambu–Goldstone boson in a BEC is two orders of magnitude larger than the zero-point energy of the system. This means that the state is much more robust than previously thought, raising the hope that it might be possible to experimentally observe the quasi-Nambu–Goldstone boson and quantum mass acquisition.

The choice of atom in the gas is crucial for observing quantum mass acquisition. Many BECs are made using and spin-polarized alkali atoms, which are spinless. Ueda and his team have shown that atoms with spin 'degrees of freedom' are required to observe quantum mass acquisition. Such a 'spinor' BEC could be created using .

"Our work demonstrates that fundamental physical phenomena that can usually only be tested using particle accelerators, can be reproduced on the tabletop," says Ueda. "We now plan to explore what other fundamental phenomena can be revealed in atomic BECs."

Explore further: The importance of three-way atom interactions in maintaining coherence

More information: Phuc, N. T., Kawaguchi, Y. & Ueda, M. "Quantum mass acquisition in spinor Bose-Einstein condensates." Physical Review Letters 113, 230401 (2014). DOI: 10.1103/PhysRevLett.113.230401

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Wake
2 / 5 (4) Jan 24, 2015
Anyone remember when they discovered superconductivity and we were going to have superconductive supercomputers within weeks?

BEC's are going to be heavily studied because someone else will be putting up the money. At what point do we agree that the GOVERNMENT should not be paying for this?
AmritSorli
not rated yet Jan 28, 2015
super article,
we show that already: mass has origin in diminished energy density of quantum vacuum
http://article.sc...3.11.pdf
kochevnik
5 / 5 (1) Jan 28, 2015
@Wake At what point do we agree that the GOVERNMENT should not be paying for this?
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