PbZr0.4Ti0.6O3-Based Reflectors with Tunable Peak Wavelengths

G. J. Hu; X. K. Hong; A. Y. Liu; J. Chen; J. H. Chu; N. Dai

doi:10.1002/9780470588260.ch23

PbZr0.4Ti0.6O3-Based Reflectors with Tunable Peak Wavelengths

G. J. Hu
, X. K. Hong
, A. Y. Liu
, J. Chen
, J. H. Chu
, N. Dai^*

^*Corresponding author for this work

CAS - Shanghai Institute of Technical Physics

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

Based on the phase separation, a series of quasiperiodic PbZr_o.4Ti_o.60₃ (PZT) multilayers consisting of the ordered alignment of the dense PZT and porous PZT layers have been grown using one single precursor. The multilayers exhibit good performance as a dielectric mirror, and the position of the reflection maximum can be easily tuned over the whole visible range through varying the spinning rate. More than 86% optical reflectivity and less than 19 nm photonic stop-band width have been achieved at room temperature. The quasiperiodic PZT multilayers can be used as dielectric reflectors, interference filters, and optical cavities.

Original language	English
Title of host publication	Progress in Nanotechnology
Subtitle of host publication	Applications
Publisher	Taylor and Francis
Pages	157-158
Number of pages	2
ISBN (Electronic)	9780470588260
ISBN (Print)	9780470408407
DOIs	https://doi.org/10.1002/9780470588260.ch23
State	Published - 1 Jan 2014
Externally published	Yes

Keywords

Dielectric reflectors
PbZro.4Tio.603 (PZT) multilayers
Photonic stop-band width
Spinning rate

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10.1002/9780470588260.ch23

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abstract = "Based on the phase separation, a series of quasiperiodic PbZro.4Tio.603 (PZT) multilayers consisting of the ordered alignment of the dense PZT and porous PZT layers have been grown using one single precursor. The multilayers exhibit good performance as a dielectric mirror, and the position of the reflection maximum can be easily tuned over the whole visible range through varying the spinning rate. More than 86\% optical reflectivity and less than 19 nm photonic stop-band width have been achieved at room temperature. The quasiperiodic PZT multilayers can be used as dielectric reflectors, interference filters, and optical cavities.",

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doi = "10.1002/9780470588260.ch23",

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T1 - PbZr0.4Ti0.6O3-Based Reflectors with Tunable Peak Wavelengths

AU - Hu, G. J.

AU - Hong, X. K.

AU - Liu, A. Y.

AU - Chen, J.

AU - Chu, J. H.

AU - Dai, N.

PY - 2014/1/1

Y1 - 2014/1/1

N2 - Based on the phase separation, a series of quasiperiodic PbZro.4Tio.603 (PZT) multilayers consisting of the ordered alignment of the dense PZT and porous PZT layers have been grown using one single precursor. The multilayers exhibit good performance as a dielectric mirror, and the position of the reflection maximum can be easily tuned over the whole visible range through varying the spinning rate. More than 86% optical reflectivity and less than 19 nm photonic stop-band width have been achieved at room temperature. The quasiperiodic PZT multilayers can be used as dielectric reflectors, interference filters, and optical cavities.

AB - Based on the phase separation, a series of quasiperiodic PbZro.4Tio.603 (PZT) multilayers consisting of the ordered alignment of the dense PZT and porous PZT layers have been grown using one single precursor. The multilayers exhibit good performance as a dielectric mirror, and the position of the reflection maximum can be easily tuned over the whole visible range through varying the spinning rate. More than 86% optical reflectivity and less than 19 nm photonic stop-band width have been achieved at room temperature. The quasiperiodic PZT multilayers can be used as dielectric reflectors, interference filters, and optical cavities.

KW - Dielectric reflectors

KW - PbZro.4Tio.603 (PZT) multilayers

KW - Photonic stop-band width

KW - Spinning rate

UR - https://www.scopus.com/pages/publications/85219146106

U2 - 10.1002/9780470588260.ch23

DO - 10.1002/9780470588260.ch23

M3 - 章节

AN - SCOPUS:85219146106

SN - 9780470408407

SP - 157

EP - 158

BT - Progress in Nanotechnology

PB - Taylor and Francis

ER -

PbZr0.4Ti0.6O3-Based Reflectors with Tunable Peak Wavelengths

Abstract

Keywords

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