THEORETICAL AND COMPUTATIONALSTUDY OF SURFACE PHONON-POLARITON MODES ON NEW GIANTDIELECTRIC MATERIALCaCu3Ti4012 UNDER EXTRINSIC-LORENTZ OSCILLATOR MODEL
Main Author: | , Isom Hilmia , Kamsul Abrahaa |
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Format: | Article NonPeerReviewed |
Terbitan: |
[Yogyakarta] : Fak. Teknik UGM
, 2008
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Online Access: |
https://repository.ugm.ac.id/93835/ http://repository.ugm.ac.id/digitasi/index.php?module=cari_hasil_full&idbuku=1634 |
Daftar Isi:
- <p>Abstract. A theoretical and computational study of surface phonon-polariton<br /> modes on new giant dielectric material CaCu3Ti4012 under extrinsic-oscillator<br /> model has been done. We assume that the large observed static dielectric response<br /> arises from. extrinsic mechanisms, such as contributed by point, line, or .planar<br /> defects, or more generally, from sample microstructure morphology, or boundary<br /> layers, although we cannot barely abandon the corresponding intrinsic mechanism<br /> that may also cause the aforementioned phenomena. For doing so, we therefore<br /> suggest to take into account some compelling contribution from the Lorentz<br /> oscillators in the context of the extrinsic model dielectric constant arising from the<br /> microstructures of the material. The computed ATR (Attenuated Total Reflection)<br /> spectra show that the s...rface phonon-polaritons can be detected optimally at<br /> various distances between the silicon prism and the sample using the Otto<br /> configuration for each morphology. The silicon prism is used in this ATR<br /> calculation because it is transparent in the far-infrared spectral region where the<br /> resonant frequencies of the polaritons lie. Each morphology has distinct frequency<br /> regions showing the existence of surface phonon-polaritons on CaCu3Ti4012.</p>