New records set up with 'screws of light'

New records set up with 'Screws of Light'
Camera image of a laser beam in false color, which consists of photons in a superposition with quantum numbers between +10,000 and -10,000. After zooming in twice, the enormous complexity of the structure can be revealed. Credit: IQOQI Vienna / Robert Fickler

University of Vienna research team has succeeded in breaking two novel records while experimenting with so-called twisted particles of light. These results, now published in the journal PNAS, are not only of fundamental interest but also give a hint towards the enormous information capacity a single particle of light may offer in future applications.

Twisted light

Time and again, properties of the light surprise the research world. For example, light can be brought into a corkscrew-like form in order to produce so-called "screws of light", as Anton Zeilinger, quantum physicist at the University of Vienna, describes. The amazing fact is that one can in principle impose any number of windings on each individual light particle - called photons. The larger the number of windings, the larger the so-called quantum number with which the photon is described. The Viennese scientists results of the Vienna Center for Quantum Science and Technology (VCQ) at the University of Vienna and the Institute of Quantum Optics and Quantum Information Vienna (IQOQI Vienna) at the Austrian Academy of Sciences have now made use of this feature in two papers, breaking previous records on the transmission distance and the magnitude of the quantum number.

Twisted light transmitted message over 143 kilometers

In principle, can carry an arbitrary large amount of information per photon. This is in contrast to the polarization of light, which is limited to one bit per photon. For example, data rates of up to 100 terabits per second, which correspond to about 120 Blu-Ray discs per second, have already been achieved under laboratory conditions. The transmission under realistic conditions, however, is still in its infancy. In addition to transmission over short distances in special fiber optics, transmission of such light beams over free space, required for instance for satellite communication, was limited to three kilometers so far; achieved by the same Viennese team two years ago.

New records set up with 'Screws of Light'
Screw of light on the 143 km long way between the canary islands of La Palma and Tenerife. Credit: University Vienna

In the current study, the research team around Anton Zeilinger and Mario Krenn show that information encoded in twisted light can still be reconstructed even after more than 100 kilometers. The experiment has been conducted between the canary islands of La Palma and Tenerife, which is 143 kilometer away. "The message 'Hello World!' has been encoded onto a green laser with an optical hologram, and reconstructed with an artificial neural network on the other island", explains Krenn, PhD-student in Zeilinger's group. Having shown that these light properties are in principle maintained over long distances, they now have to be combined with modern communication technologies - a task which already several groups around the world are starting to address.

Quantum entanglement with 5-digits quantum numbers

Together with the research group of Ping Koy Lam in Canberra, Australia, the Viennese group of Anton Zeilinger also investigated how strongly single photons can be twisted into the screw-like structure without losing distinct quantum features. In other words, does quantum physics still hold in the limit of large or is classical physics and everyday experience taking over again? For this purpose, the researchers took advantage of a novel technique developed by their colleagues in Australia. There, they have established a technique to fabricate so-called spiral phase mirrors to twist photons in an unprecedented strong manner and thus increase the quantum numbers to huge values. The mirrors, custom-made for the experiment in Vienna, allow the generation of screw-like photons with quantum numbers of more than 10,000, which is a hundred times larger than in previous experiments.

New records set up with 'Screws of Light'
Image of the screw of light on the wall of the Optical Ground Station telescope of the ESA in Tenerife, Canary Island, after being transmitted over more than 100 km. The ring-like structure, a signature of screws of light, is still clearly visible. Credit: University Vienna

At first, the Viennese researchers generated , i.e. two particles of light that are seemingly connected despite being separated by an arbitrary distance. Entanglement is the distinct phenomena in quantum physics, which Einstein described as "spooky action at a distance". After completion of this initial step, the researchers then twisted one of the photons with the Australian mirrors without destroying the entanglement, thus demonstrating that quantum physics even holds if 5-digit quantum numbers are entangled. Although driven by foundational questions, future applications can already be anticipated. "The enormous complexity of the light's structure is fascinating and can be seen as an intuitive indication about how much information should fit on a single photon", explains Robert Fickler, lead author of the study and currently working as a postdoctoral fellow at the University of Ottawa, Canada.

Hence, in both studies the researchers set up novel records with "screws of " to investigate foundational questions as well as pave the way to possible future technologies.


Explore further

Three 'twisted' photons in 3 dimensions

More information: Mario Krenn et al, Twisted light transmission over 143 km, Proceedings of the National Academy of Sciences (2016). DOI: 10.1073/pnas.1612023113 , https://arxiv.org/abs/1606.01811

Robert Fickler et al. Quantum entanglement of angular momentum states with quantum numbers up to 10,010, Proceedings of the National Academy of Sciences (2016). DOI: 10.1073/pnas.1616889113 , https://arxiv.org/abs/1607.00922

Citation: New records set up with 'screws of light' (2016, November 16) retrieved 18 June 2019 from https://phys.org/news/2016-11-new-records-set-up-with.html
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Nov 16, 2016
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