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TIME AND SPACE
Physicists breeding Schroedinger cat states
by Staff Writers
Toronto, Canada (SPX) May 03, 2017


CIFAR Quantum Information Science Fellow Alexander Lvovsky led the team of Russian Quantum Center and University of Calgary scientists. Credit: Alexander Lvovsky

Physicists have learned how they could breed Schrodinger cats in optics. CIFAR Quantum Information Science Fellow Alexander Lvovsky led the team of Russian Quantum Center and University of Calgary scientists who tested a method that could potentially amplify superpositions of classical states of light beyond microscopic limits and help determine the boundaries between the quantum and classical worlds.

The study was published in Nature Photonics.

In 1935, German physicist Erwin Schrodinger proposed a thought experiment where a cat, hidden from the observer, is in a superposition of two states: it was both alive and dead. Schrodinger's cat was intended to show how radically different the macroscopic world we see is from the microscopic world governed by the laws of quantum physics.

However, the development of quantum technologies makes it possible to create increasingly complex quantum states, and Schrodinger's thought experiment no longer seems too far out of reach.

"One of the fundamental questions of physics is the boundary between the quantum and classical worlds. Can quantum phenomena, provided ideal conditions, be observed in macroscopic objects? Theory gives no answer to this question - maybe there is no such boundary. What we need is a tool that will probe it," says Lvovsky, who is a professor at the University of Calgary and head of the Quantum Optics Laboratory of the Russian Quantum Center, where the experiment was set up.

Exactly such a tool is provided by the physical analogue of the Schrodinger cat - an object in a quantum superposition of two states with opposite properties. In optics, this is a superposition of two coherent light waves where the fields of the electromagnetic waves point in two opposite directions at once.

Until now, experiments could only obtain such superpositions at small amplitudes that limit their use. The Lvovsky group carried out the procedure of "breeding" such states, which makes it possible to obtain optical "cats" of higher amplitudes with greater success.

Co-author and University of Calgary graduate student Anastasia Pushkina explains: "The idea of the experiment was proposed in 2003 by the group of Professor Timothy Ralph of the University of Queensland, Australia. In essence, we cause interference of two "cats" on a beam splitter.

"This leads to an entangled state in the two output channels of that beam splitter. In one of these channels, a special detector is placed. In the event this detector shows a certain result, a "cat" is born in the second output whose energy is more than twice that of the initial one."

The Lvovsky group tested this method in the lab. In the experiment, they successfully converted a pair of negative squeezed "Schrodinger cats" of amplitude 1.15 to a single positive "cat" of amplitude 1.85. They generated several thousand such enlarged "cats" in their experiment.

"It is important that the procedure can be repeated: new 'cats' can, in turn, be overlapped on a beam splitter, producing one with even higher energy, and so on. Thus, it is possible to push the boundaries of the quantum world step by step, and eventually to understand whether it has a limit," says the first author of the study, a graduate student from the Russian Quantum Center and the Moscow State Pedagogical University, Demid Sychev.

Such macroscopic "Schrodinger cats" would have applications in quantum communication, teleportation and cryptography.

Research paper

TIME AND SPACE
Looking for the quantum frontier
Bristol UK (SPX) May 01, 2017
A team of researchers from Australia and the UK have developed a new theoretical framework to identify computations that occupy the 'quantum frontier' - the boundary at which problems become impossible for today's computers and can only be solved by a quantum computer. Importantly, they demonstrate that these computations can be performed with near-term, intermediate, quantum computers. "U ... read more

Related Links
Canadian Institute for Advanced Research
Understanding Time and Space

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