Effect of high-frequency electromagnetic radiation on the plasmon dispersion in biased graphene bilayer

被引：2

作者：

Kukhar, E. I. ^{[1
,2
]}

机构：

[1] Volgograd State Sociopedag Univ, VI Lenin Ave 27, Volgograd 400066, Russia

[2] Volgograd State Tech Univ, VI Lenin Ave 28, Volgograd 400005, Russia

来源：

PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES | 2019年 / 105卷

关键词：

Graphene bilayer; Floquet spectrum; Plasma oscillations; Plasmon; TRANSPORT;

D O I：

10.1016/j.physe.2018.08.016

中图分类号：

TB3 [工程材料学];

学科分类号：

0805 ; 080502 ;

摘要：

The Floquet spectrum of electron in biased graphene bilayer subjected to the high-frequency electromagnetic radiation has been derived. The magnitude of gap in electron spectrum renormalized by radiation has been calculated. The quasienergy gap has been shown to increase with electromagnetic wave intensity. The possibility of controlling of curvature of dispersion curve for plasmon by changing of both bias voltage and high-frequency field intensity has been shown. The dependence of this curvature on both bias voltage and electromagnetic field amplitude has been predicted to have the nonmonotonous character. Intensity of electromagnetic radiation causing the suppression of the plasma oscillations has been found.

引用

页码：1 / 6

页数：6

共 50 条

[31] AMPLIFYING ELECTROMAGNETIC RADIATION WITH USE OF AVERAGED HIGH-FREQUENCY FIELD INTENSITIES
LUKYANCH.GS
RADIO ENGINEERING AND ELECTRONIC PHYSICS-USSR, 1970, 15 (05): : 935 - &
[32] EXCITATION OF ELECTROMAGNETIC-RADIATION BY HIGH-FREQUENCY OSCILLATIONS OF A PLASMA WAVEGUIDE
BALAKIREV, VA
IZVESTIYA VYSSHIKH UCHEBNYKH ZAVEDENII RADIOFIZIKA, 1981, 24 (09): : 1161 - 1163
[33] Magnetoelectric coupling, Berry phase, and Landau level dispersion in a biased bilayer graphene
Zhang, Lingfeng M.
Fogler, Michael M.
Arovas, Daniel P.
PHYSICAL REVIEW B, 2011, 84 (07):
[34] The electromagnetic effect study of GIS enclosure under high-frequency electromagnetic pulse
Chen, Shu
Guo, Jie
Hu, Chengbo
Tao, Fengbo
Xie, Tianxi
Xu, Yang
Jia, Jun
JOURNAL OF ENGINEERING-JOE, 2019, (16): : 2837 - 2841
[35] High-Frequency Tellurene MOSFETs with Biased Contacts
Xiong, Kuanchen
Qiu, Gang
Wang, Yixiu
Li, Lei
Goritz, Alexander
Lisker, Marco
Wietstruck, Matthias
Kaynak, Mehmet
Wu, Wenzhuo
Ye, Peide D.
Madjar, Asher
Hwang, James C. M.
2021 IEEE MTT-S INTERNATIONAL MICROWAVE SYMPOSIUM (IMS), 2021, : 319 - 322
[36] Variational Analysis of High-Frequency Effect on Moving Electromagnetic Interface
谭康伯
路宏敏
官乔
张光硕
陈冲冲
Chinese Physics Letters, 2018, 35 (07) : 44 - 47
[37] Effect of high-frequency electromagnetic field on microstructure of mold flux
Wang, Xingjuan
Jin, Hebin
Zhu, Liguang
Liu, Ran
Song, Tushun
HIGH TEMPERATURE MATERIALS AND PROCESSES, 2020, 39 (01) : 368 - 376
[38] Effect of a high-frequency electromagnetic field on the properties of chromium coatings
Anisovich, A. G.
Azharonok, V. V.
Gologan, V. F.
Bologa, M. K.
Bisyuk, L. V.
Bobanova, Zh I.
Ivashku, S. Kh
Krat'ko, L. E.
SURFACE ENGINEERING AND APPLIED ELECTROCHEMISTRY, 2013, 49 (02) : 101 - 106
[39] AMPLIFICATION OF THE RADIOBIOLOGICAL EFFECT BY A HIGH-FREQUENCY ELECTROMAGNETIC-FIELD
TERLECKI, J
KWIATKOWSKI, B
NUKLEONIKA, 1981, 26 (01) : 135 - 139
[40] EFFECT OF PHONON HEATING ON PROPAGATION OF HIGH-FREQUENCY ELECTROMAGNETIC WAVE
GASYMOV, TM
KATANOV, AA
FIZIKA TVERDOGO TELA, 1973, 15 (09): : 2644 - 2646

← 1 2 3 4 5 →