Chalcogenide Thin Films—Holographic Media for Augmented Reality Devices

Vladimir N. Borisov; Nikolay V. Muravyev; Mikhail V. Popov; Roman A. Okun; Aleksandr E. Angervaks; Gavril N. Vostrikov; Sergey A. Kozyukhin; Dmitry Yu. Terekhov; Petr I. Lazarenko; Ekaterina S. Musikhina; Sergei A. Ivanov

doi:10.3390/app12041934

Applied Sciences (Feb 2022)

Chalcogenide Thin Films—Holographic Media for Augmented Reality Devices

Vladimir N. Borisov,
Nikolay V. Muravyev,
Mikhail V. Popov,
Roman A. Okun,
Aleksandr E. Angervaks,
Gavril N. Vostrikov,
Sergey A. Kozyukhin,
Dmitry Yu. Terekhov,
Petr I. Lazarenko,
Ekaterina S. Musikhina,
Sergei A. Ivanov

Affiliations

Vladimir N. Borisov: Samsung Research and Development Institute Russia (SRR), 127018 Moscow, Russia
Nikolay V. Muravyev: Samsung Research and Development Institute Russia (SRR), 127018 Moscow, Russia
Mikhail V. Popov: Samsung Research and Development Institute Russia (SRR), 127018 Moscow, Russia
Roman A. Okun: Samsung Research and Development Institute Russia (SRR), 127018 Moscow, Russia
Aleksandr E. Angervaks: Samsung Research and Development Institute Russia (SRR), 127018 Moscow, Russia
Gavril N. Vostrikov: Samsung Research and Development Institute Russia (SRR), 127018 Moscow, Russia
Sergey A. Kozyukhin: Kurnakov Institute of General and Inorganic Chemistry of the RAS, 119071 Moscow, Russia
Dmitry Yu. Terekhov: Institute of Advanced Materials and Technologies, National Research University of Electronic Technology (MIET), 124498 Zelenograd, Russia
Petr I. Lazarenko: Institute of Advanced Materials and Technologies, National Research University of Electronic Technology (MIET), 124498 Zelenograd, Russia
Ekaterina S. Musikhina: Faculty of Photonics, ITMO University, 197101 St. Petersburg, Russia
Sergei A. Ivanov: Faculty of Photonics, ITMO University, 197101 St. Petersburg, Russia

DOI: https://doi.org/10.3390/app12041934
Journal volume & issue: Vol. 12, no. 4
p. 1934

Abstract

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Holographic characteristics of chalcogenide film materials with a typical thickness of 0.5–1.5 µm of a number of Ge-S and As-S compositions have been studied theoretically and experimentally with the aim of using them in augmented reality waveguide devices. The possibility of controlling the spectral and holographic properties of materials by varying their composition is shown. The recording of both volume and surface holographic elements operating in the total internal reflection mode was carried out. The operation of holograms in the “periscope mode” with a diffraction efficiency of about 10% is demonstrated. It is concluded that the recording of high-performance holographic elements on chalcogenide films requires significant values of exposure energy when recording in the near UV range (325–355 nm), which makes holographic recording currently ineffective for creating such elements.

Published in Applied Sciences

ISSN: 2076-3417 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology: Engineering (General). Civil engineering (General); Science: Biology (General); Science: Physics; Science: Chemistry
Website: http://www.mdpi.com/journal/applsci

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