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Doomed Couple of Diamond with Terahertz Frequency: Hyperfine Quality Discrimination and Complex Dielectric Responses of Diamond in the Terahertz Waveband

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posted on 2020-10-26, 17:02 authored by Yuting Zheng, Rui Zhang, Xiaodong Chen, Peter Hing, Jinlong Liu, Junjun Wei, Jue Wang, Chengming Li, Haitao Ye
The technology age of terahertz (THz) frequency is coming with tremendous features and astonishing applications in various fields of science. Using THz time domain spectroscopy, we demonstrate experimentally, for the first time, the fingerprint absorption peaks and the complex dielectric response trends in 0.1-3 THz frequency waveband, on intentionally synthesized and processed chemical vapour deposition (CVD) polycrystalline and single-crystal diamond films with systematic quality-difference. The two absorption signatures within the 0.1-3 THz frequency band, in which the atomic vibration is materials-independent, are attributed to the sp2 phonon vibration modes of as-grown graphitic phases and/or defects. Regarding the complex dielectric responses of diamond in THz waveband, scattering effect resulting from the extended grain boundaries associated with concomitant pores (even gaps) (and/or extended crystal cleavage faults associated with amorphous carbon), as well as intrinsic lattice absorption resulting from increased sp2 impurities, have been taken into account. Especially the defect size comparable with the wavelength is also found to play a significant effect on the loss at higher-frequency electromagnetic wave. These findings are expected to promote not only ultra-sensitive quality diagnose for diamond but verification of an ideal transmission material for THz waveband applications.

History

Citation

ACS Applied Electronic Materials, 2020, 2, 5, 1459–1469

Author affiliation

Department of Engineering

Version

  • AM (Accepted Manuscript)

Published in

ACS Applied Electronic Materials

Volume

2

Issue

5

Pagination

1459 - 1469

Publisher

American Chemical Society (ACS)

issn

2637-6113

eissn

2637-6113

Acceptance date

2020-04-26

Copyright date

2020

Available date

2021-04-26

Language

en

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