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Nonlinear composite media on opal matrixes and metallocarbon nanostructures

机译:蛋白石基质和金属碳纳米结构上的非线性复合介质

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Examination of nonlinear periodic composite media based on opal matrices and metal-carbon nanostructures is conducted. This can constitute a new element base opening possibilities for the modern radioelectronics. The considered nanostructures have the substantial potential for their application in perspective nanotechnologies directed on creation of radioelectronic devices for SHF, EHF and HHF bands (microwave, sub-THz and THz ranges). They allow improving the functional characteristics of the arrangements made on their base. Nanostructures construction with preset properties is important for design of sub-THz and THz radioelectronics. Such properties can ensure an opportunity of nanostructures controlling, based on which it is possible to realize the nonlinear parametric zonal systems (NPS) resonance circuits functioning on current ultraharmonics in the highest zones of electromagnetic oscillations instability.
机译:进行了基于蛋白石基质和金属-碳纳米结构的非线性周期性复合介质的研究。这可以构成现代无线电电子学的新的元素基础开放可能性。所考虑的纳米结构在透视纳米技术中的应用中具有巨大的潜力,该视角纳米技术旨在创建用于SHF,EHF和HHF波段(微波,次THz和THz范围)的无线电电子设备。它们可以改善在其基础上进行的布置的功能特性。具有预设特性的纳米结构构造对于亚太赫兹和太赫兹无线电电子学的设计很重要。这样的性质可以确保控制纳米结构的机会,据此有可能实现在电磁振荡不稳定性的最高区域中作用于当前超谐波的非线性参数区域系统(NPS)谐振电路。

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