Search by tag «Metamaterials» 50 results

• The Recent Nanophotonics and Metamaterials International Doctoral Summer School - Participants' Impressions

  The Second Nanophotonics and Metamaterials International Doctoral Summer Schoolhas just ended at ITMO University. According to its participants, the school offered a great opportunity to learn about the recent achievements in the field. For almosta week, they listened to lectures by scientists from leading research teams, conducted project work and got a whole lot of new ideas and useful contacts to work with. We've asked the students and one of the school's lecturers to share about the event.

  23.05.2017

• Visiting Scientist Silvio Hrabar: Why It’s Important to Find New Uses for Old Discoveries

  Being a scientist doesn’t just mean going to work – it means enjoying one’s work and turning it into a lifestyle, says Silvio Hrabar, ITMO University’s visiting scientist from University of Zagreb. He is conducting research into so-called “active” metamaterials which could provide a method of removing the physical limits of metamaterials. After all, these limits are the main reason why it’s so difficult to find an application for this technology. In an interview with ITMO.NEWS, Silvio Hrabar shared his thoughts on how this could be achieved, what should inspire a scientist and what are the advantages of bringing together physicists and mathematicians to study metamaterials. 

  16.05.2017

• ITMO Launches the Nanophotonics and Metamaterials International Doctoral Summer School

  The event's program includes reports by leading Russian and foreign scientists - specialists from USA, Australia, Germany, Italy, Greece, Switzerland, Denmark and Finland,and is dedicated to the relevant fundamental and application problems of photonics and metamaterials.

  16.05.2017

• Trapping Light: Anisotropic Structures Can Increase Optical Device's Efficiency

  ITMO's scientists Yuri Kivshar and Mikhail Rybin published an article in the News&Views section of the Nature Photonics journal on the research of their colleagues from Barcelona Institute of Science and Technology. The article explains how the Spanish researchers succeeded in using the anisotropic properties of a compound for creating simpler yet more effective optical devices based on the so-called bound states in continuous spectrum. In future, this discovery can be applied in optical detection systems and other devices, shared Mikhail Rybin, Deputy Head of ITMO's Department of Dielectric and Semiconductor Photonics and senior research officer of the Spectroscopy of Solids Laboratory of the Ioffe Institute.

  11.04.2017

• Solitons for Optical Computing: ITMO’s Physicist Receives a Presidential Grant

  Roman Savelyev, researcher of the Department of Nano-Photonics and Metamaterials, received a grant for his work devoted to micro structures that can assist in light signal control at ultrashort distances. The results of the research can be applied to development of optical computing.

  07.02.2017

• New Faculty Opens Its Doors for Bachelors

  The new Physical Technical Faculty started working on January 1, 2017. This summer it will launch a program for Bachelors called "Nanophotonics and Quantum Physics."

  19.01.2017

• ITMO University Joins the Horizon 2020 to Develop MRI

  An international research consortium, which includes the International Research Center for Nanophotonics and Metamaterials, joined the top 25 centers that won the Horizon 2020 grant.

  12.01.2017

• Scientists Produce Water Based Tunable Metasurfaces

  Scientists from Russia and Denmark firstly demonstrated a tunable metasurface based on the most common substance on the Earth — water. Artificially produced materials, called metasurfaces, manipulate microwaves and are known for long. Currently the researchers show that water based metasurface may perform like metal or silicon ones, being at the same time extremely cheap and tunable right in the operation process. The scientists studied properties of the metasurface just in that frequency range, which is the same as modern gadgets have, and suggested that it can be used to block mobile signals. The study was published in Applied Physics Letters.

  13.12.2016

• Russian Scientists Develop New Metasurfaces for Deep UV-Imaging

  Russian researchers developed a new material, which converts infrared light to ultrashort pulses of ultraviolet. For this purpose, the scientists exposed silicon film to laser so that its relief adjusted under light wavelength and made properties of the material resonant. In the end, the researchers got a cheap and easy-to-make metasurface, which is as effective as existing ones. The new technology can help create compact UV generators for biophotonics and medicine, and also devices for ultradense data processing in optical communication. The study was published in Nanoscale.

  02.12.2016

• Nonlinear Metamaterials in Making Computers More Effective

  As of now, optical systems for information processing are a trend developed by scientists worldwide, as they can greatly enhance computations. Many put their hopes in the use of nonlinear metamaterials. The first step to it is increasing the efficiency of nonlinear signal conversion. Maxim Gorlach from ITMO's Nano-photonics and Metamaterials Center and his colleagues work on solving one of the fundamental problems that contribute to the research of nonlinear metamaterials' properties with regard to spatial dispersion. Their results were highly appreciated by international experts at the Metamaterials-2016 international conference in Crete — the team was awarded a diploma for the best theoretical research.

  13.10.2016