The detection of terahertz waves by semimetallic and by semiconducting materials

F. Gouider; G. Nachtwei; C. Brüne; H. Buhmann; Yu. B. Vasilyev; M. Salman; J. Könemann; P. D. Buckle

doi:10.1063/1.3530727

Electron microscope studies of the plastic deformation of ternary alloys based on GaAs

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100178732 ◽

1990 ◽

Vol 48 (4) ◽

pp. 1120-1120

Author(s):

R. Haswell ◽

U. Bangert ◽

P. Charsley

Keyword(s):

Plastic Deformation ◽

Electron Microscope ◽

Room Temperature ◽

Stacking Faults ◽

The Other ◽

Ternary Alloys ◽

Dislocation Mobility ◽

Semiconducting Materials ◽

Micro Indentation

A knowledge of the behaviour of dislocations in semiconducting materials is essential to the understanding of devices which use them . This work is concerned with dislocations in alloys related to the semiconductor GaAs . Previous work on GaAs has shown that microtwinning occurs on one of the <110> rosette arms after indentation in preference to the other . We have shown that the effect of replacing some of the Ga atoms by Al results in microtwinning in both of the rosette arms.In the work to be reported dislocations in specimens of different compositions of Gax Al(1-x) As and Gax In(1-x) As have been studied by using micro indentation on a (001) face at room temperature . A range of electron microscope techniques have been used to investigate the type of dislocations and stacking faults/microtwins in the rosette arms , which are parallel to the [110] and [10] , as a function of composition for both alloys . Under certain conditions microtwinning occurs in both directions . This will be discussed in terms of the dislocation mobility.

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Measurement of Refractive Index of Thermal Barrier Coating using Reflection of Terahertz Waves and Variable Aperture

IEEJ Transactions on Fundamentals and Materials ◽

10.1541/ieejfms.134.478 ◽

2014 ◽

Vol 134 (8) ◽

pp. 478-484

Author(s):

Tetsuo Fukuchi ◽

Norikazu Fuse ◽

Maya Mizuno ◽

Kaori Fukunaga

Keyword(s):

Refractive Index ◽

Thermal Barrier Coating ◽

Thermal Barrier ◽

Terahertz Waves ◽

Barrier Coating ◽

Variable Aperture

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Surface Roughness Measurement of Thermal Barrier Coating using Terahertz Waves

IEEJ Transactions on Fundamentals and Materials ◽

10.1541/ieejfms.137.147 ◽

2017 ◽

Vol 137 (3) ◽

pp. 147-152 ◽

Cited By ~ 3

Author(s):

Tetsuo Fukuchi ◽

Norikazu Fuse ◽

Mitsutoshi Okada ◽

Tomoharu Fujii ◽

Maya Mizuno ◽

...

Keyword(s):

Surface Roughness ◽

Thermal Barrier Coating ◽

Thermal Barrier ◽

Roughness Measurement ◽

Terahertz Waves ◽

Surface Roughness Measurement ◽

Barrier Coating

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Nondestructive Testing using Terahertz Waves

IEEJ Transactions on Power and Energy ◽

10.1541/ieejpes.135.647 ◽

2015 ◽

Vol 135 (11) ◽

pp. 647-650 ◽

Cited By ~ 2

Author(s):

Tetsuo Fukuchi ◽

Norikazu Fuse ◽

Maya Mizuno ◽

Kaori Fukunaga

Keyword(s):

Nondestructive Testing ◽

Terahertz Waves

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Photocatalysis. Irradiation conditions for testing photocatalytic properties of semiconducting materials and the measurement of these conditions

10.3403/30281372u ◽

2015 ◽

Keyword(s):

Photocatalytic Properties ◽

Semiconducting Materials

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Nano Semiconducting Materials

10.21741/9781945291050 ◽

2016 ◽

Author(s):

R. Saravanan

Keyword(s):

Semiconducting Materials

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Discotic columnar liquid-crystalline polymer semiconducting materials with high charge-carrier mobility via rational macromolecular engineering

Polymer Chemistry ◽

10.1039/c7py00364a ◽

2017 ◽

Vol 8 (21) ◽

pp. 3286-3293 ◽

Cited By ~ 19

Author(s):

Bin Mu ◽

Xingtian Hao ◽

Jian Chen ◽

Qian Li ◽

Chunxiu Zhang ◽

...

Keyword(s):

Liquid Crystalline ◽

Cost Effective ◽

Crystalline Polymer ◽

Charge Carrier Mobility ◽

Optoelectronic Device ◽

Side Chain ◽

Liquid Crystal Polymers ◽

Semiconducting Materials ◽

Organic Semiconducting Materials ◽

Device Applications

Well-prepared side-chain discotic liquid crystal polymers with shorter spacers in ordered columnar phases are fascinating and promising cost-effective, solution-processable organic semiconducting materials for various potential optoelectronic device applications.

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Recent Progress in the Development of Graphene Detector for Terahertz Detection

Sensors ◽

10.3390/s21154987 ◽

2021 ◽

Vol 21 (15) ◽

pp. 4987

Author(s):

Jianlong Liu ◽

Xin Li ◽

Ruirui Jiang ◽

Kaiqiang Yang ◽

Jing Zhao ◽

...

Keyword(s):

Recent Progress ◽

Photovoltaic Effect ◽

Dimensional Structure ◽

High Electron ◽

Terahertz Waves ◽

Terahertz Detectors ◽

Basic Part ◽

Suitable Material ◽

Terahertz Region ◽

Frequency Independent

Terahertz waves are expected to be used in next-generation communications, detection, and other fields due to their unique characteristics. As a basic part of the terahertz application system, the terahertz detector plays a key role in terahertz technology. Due to the two-dimensional structure, graphene has unique characteristics features, such as exceptionally high electron mobility, zero band-gap, and frequency-independent spectral absorption, particularly in the terahertz region, making it a suitable material for terahertz detectors. In this review, the recent progress of graphene terahertz detectors related to photovoltaic effect (PV), photothermoelectric effect (PTE), bolometric effect, and plasma wave resonance are introduced and discussed.

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Assessing the Salt Constituents Characteristics in Aqueous Solutions Using Terahertz Waves

2020 IEEE International Symposium on Antennas and Propagation and North American Radio Science Meeting ◽

10.1109/ieeeconf35879.2020.9329818 ◽

2020 ◽

Author(s):

Adnan Zahid ◽

Hasan T. Abbas ◽

Ivonne E. Carranza ◽

James P. Grant ◽

Muhammad A. Imran ◽

...

Keyword(s):

Aqueous Solutions ◽

Terahertz Waves

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Frequency Division Multiplexing of Terahertz Waves Realized by Diffractive Optical Elements

Applied Sciences ◽

10.3390/app11146246 ◽

2021 ◽

Vol 11 (14) ◽

pp. 6246

Author(s):

Paweł Komorowski ◽

Patrycja Czerwińska ◽

Mateusz Kaluza ◽

Mateusz Surma ◽

Przemysław Zagrajek ◽

...

Keyword(s):

Frequency Division Multiplexing ◽

Diffractive Optical Elements ◽

Frequency Division ◽

Terahertz Waves ◽

Optical Elements ◽

Telecommunication Systems ◽

Wide Range ◽

The Future ◽

Wireless Telecommunication ◽

Finite Distance

Recently, one of the most commonly discussed applications of terahertz radiation is wireless telecommunication. It is believed that the future 6G systems will utilize this frequency range. Although the exact technology of future telecommunication systems is not yet known, it is certain that methods for increasing their bandwidth should be investigated in advance. In this paper, we present the diffractive optical elements for the frequency division multiplexing of terahertz waves. The structures have been designed as a combination of a binary phase grating and a converging diffractive lens. The grating allows for differentiating the frequencies, while the lens assures separation and focusing at the finite distance. Designed structures have been manufactured from polyamide PA12 using the SLS 3D printer and verified experimentally. Simulations and experimental results are shown for different focal lengths. Moreover, parallel data transmission is shown for two channels of different carrier frequencies propagating in the same optical path. The designed structure allowed for detecting both signals independently without observable crosstalk. The proposed diffractive elements can work in a wide range of terahertz and sub-terahertz frequencies, depending on the design assumptions. Therefore, they can be considered as an appealing solution, regardless of the band finally used by the future telecommunication systems.

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