磁光子复合介质中物理现象和过程的研究。磁光子学材料介质

2018 19th International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices (EDM) Pub Date : 2018-06-01 DOI:10.1109/EDM.2018.8435006

L. Cherckesova, G. N. Shalamov, A. A. Shelud'ko, B. Akishin, V. Porksheyan, I. Trubchik

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引用次数: 0

摘要

21世纪无线电电子学和信息通信技术的发展与不断增加的数据量的传输有关，并面向使用次太赫兹和太赫兹波段- SHF, EHF和HHF(0.1-10太赫兹)。这些波段的元件和器件可以有条件地分为两个级别:1太赫兹以下的电子设备是有效使用的，1太赫兹以上的是光子器件。光子技术的发展在通信和空间通信系统中都具有越来越重要的意义。本文研究了磁光(磁光子)复合材料介质中发生的物理现象和过程，这些物理现象和过程能够最佳地保证其效率，从而为国内无线电电子学创造新的元素基线。创造能够在次太赫兹和太赫兹频段工作的新一代功能设备将导致电信的迅速发展。

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Examination of Physical Phenomena and Processes in the Magnetophotonic Composite Media. Magnetophotonics Material Medium

The development of radioelectronics and informative-and-communicative technologies of the XXI century is associated with the transmission of ever increasing volume of data and is oriented to use of subTHz and THz bands - SHF, EHF, and HHF (0.1–10 THz). Elements and devices of these bands can be conditionally divided into 2 levels: up to 1 THz electronic equipments are effectively uses, over 1 THz-are photonic devices. The development of photonic technologies is of increasing importance both in the telecommunicative and in the space communication systems. In this report the physical phenomena and processes occurring in magnetooptical (magnetophotonic) composite material media capable of optimally ensuring their efficiency have been investigated to create new element baseline for domestic radioelectronics. The creation of new-generation functional devices capable of operating in subTHz and THz frequency bands will entail the rapid development of telecommunications.

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2018 19th International Conference of Young Specialists on Micro/Nanotechnologies and Electron Devices (EDM)

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