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Russian physicists with foreign colleagues have discovered a promising material for future photonics
12.02.2021 [12:48],
Gennady Detinich

Silicon photonics has been around for a long time and is widely used in optical communication lines. But how to go further – to overcome the diffraction limit and create even smaller optical elements? It turned out that natural materials known to the Scandinavian Vikings, which refract light due to their layered structure and giant anisotropy, can help with this. These properties come in handy for photon-powered electronics.

Icelandic spar. Image Source: Minerals Catalog

Employees of the Center for Photonics and Two-Dimensional Materials of MIPT, together with foreign colleagues from Spain, Great Britain, Sweden and Singapore, including the discoverer of two-dimensional materials and Nobel laureate Konstantin Novoselov, were able to open the world of well-known anisotropic materials for post-silicon photonics. They were the first to measure the giant optical anisotropy in layered crystals of molybdenum disulfide and confirmed the experiments with theoretical calculations.

Until recently, layered perovskite crystals BaTiS3 and hexagonal boron nitride h-BN had a record value of birefringence (0.8). However, to create more compact optics, materials with an optical anisotropy exceeding 1 were required, which would make it possible to overcome the diffraction limit. Dichalcogenides of transition metals and, in particular, molybdenum disulfide were very promising in this respect.

Scientists were faced with the task of quantitatively measuring the optical anisotropy of molybdenum disulfide and confirming it with theoretical calculations. In the course of a series of complex experiments, it was possible to unambiguously determine the birefringence of the material, which in the near infrared range was 1.5, and in the visible it reaches 3. These values ​​are several times higher than the values ​​of previous record holders and allow us to say that the era of post-silicon photonics can be safely opened.

Diagram of the structure of molybdenum disulfide. Image source: Nature Communications

As Professor Valentin Volkov, who in September 2021 moved from the University of Southern Denmark to MIPT, where he headed the Center for Photonics and Two-Dimensional Materials, said: “It turned out unexpectedly for us that natural anisotropic materials make it possible to create compact waveguides literally on the verge of the diffraction limit. This gives us the opportunity to compete with silicon photonics, and now we can safely not only talk about post-silicon photonics, but also put it into practice ”.

We add, an article in Nature Communications on the study can be seen at this link, and a little more details in Russian can be read on the MIPT website.

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