Researchers create “squeezed” quantum vacuum filled with atoms

03 Dec 2011

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Quantum theory is known for its peculiar concepts that appear to contradict the fundamental principles of traditional physics.

Researchers from Heidelberg University have now succeeded in creating a special quantum state between two mesoscopic gases with approximately 500 atoms. The state is known as a ''squeezed'' vacuum, in which measuring one gas affects the results of the measurement on the other.

To produce these results the team, headed by Prof Dr Markus Oberthaler at the Kirchhoff Institute for Physics, had to develop a novel detection technique to measure values in atomic gases that were previously unobtainable. The results of their research have been published in the journal Nature.
 
The quantum state observed by the Heidelberg researchers has been of fundamental interest since it was first put forward in 1935 by Einstein, Podolsky and Rosen (EPR) in a thought experiment.

The three researchers wanted to use it to demonstrate that quantum mechanics is not consistent with a local reality of physical systems that is experimentally observable.

The EPR situation refers to two systems in a state of quantum entanglement, where measuring one system instantaneously effects the results of the measurement on the other - an incomprehensible fact to our traditional way of thinking, where physical laws exist regardless of whether systems are observed or not.
 
The breakthrough in the quantum state discovered and created by Prof. Oberthaler and his team lies in the quantum entanglement of continuous variables. This means that in principle, individual measurements of the two gases randomly produce many different values. After measuring one gas, however, all the other measurements on the second - entangled - gas can be precisely predicted.
 
To create and detect a ''squeezed'' quantum vacuum with its unique characteristics in the laboratory, the researchers worked with a Bose Einstein condensate. This condensate is an extreme aggregate state of a system of indistinguishable particles, most of which are in the same quantum mechanical state. The condensate used was comprised of rubidium atoms cooled to an ultracold temperature of 0.0000001 Kelvin above absolute zero.
 
''The setup of the experiment had to be extraordinarily stable since we took measurements continuously for many days in a row to gather enough data to verify the generation of a quantum entanglement'', explains Prof. Oberthaler.
 
For this purpose, the researchers had to guarantee the stability of magnetic fields that is 10,000 times smaller than of the magnetic field of the earth. They also needed to detect a gas consisting of 500 atoms with an error tolerance of less than eight atoms since the particle number fluctuations served as the signal for a successful generation of an entanglement.
 
Prof. Oberthaler: ''Normally you don't want noise in experiments, but in our investigations careful examination of the noise actually proved the presence of the quantum entanglement.''
 
The challenge for the Heidelberg team was suppressing the technical noise enough to allow the quantum noise to dominate.
 
Prof. Oberthaler and his colleagues hope not only that their research results lead to an application for precise atomic interferometry, but also see their findings as an important step in the investigation of fundamental questions of quantum mechanical entanglement of massive particles.
 

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