Excitation direction effect on polarization property of Er3+ electronic transition in LiNbO3 waveguide and bulk material

De-Long Zhang; Li Qi; Ping-Rang Hua; Juan-Antonio Vallés; Yu-Fang Wang; Bei Chen; Dao-Yin Yu; Edwin Yue-Bun Pun

doi:10.1109/LPT.2011.2157965

Excitation direction effect on polarization property of Er³⁺ electronic transition in LiNbO₃ waveguide and bulk material

De-Long Zhang, Li Qi, Ping-Rang Hua, Juan-Antonio Vallés, Yu-Fang Wang, Bei Chen, Dao-Yin Yu, Edwin Yue-Bun Pun

Department of Electrical Engineering

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

1 Citation (Scopus)

Abstract

We report that the polarization property of Er³⁺ transition in LiNbO₃ waveguide or bulk material is closely related to the incident direction of excitation beam relative to the optical axis of the crystal. It is found that the 1.5-μm transition is highly σ-(π-) polarized as the excitation direction is perpendicular (parallel) to the optical axis, and the 0.67-μ m transition reveals a reversed effect. Incident perpendicularly (parallel), the transition is highly π-(σ-) polarized. The effect is found to be independent of the polarization state and wavelength of the excitation light. It is attributed to the selective Er site excitation. © 2011 IEEE.

Original language	English
Article number	5776660
Pages (from-to)	1198-1200
Journal	IEEE Photonics Technology Letters
Volume	23
Issue number	17
DOIs	https://doi.org/10.1109/LPT.2011.2157965
Publication status	Published - 2011

Research Keywords

Excitation direction effect
polarization property of Er3+ electronic transition

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title = "Excitation direction effect on polarization property of Er3+ electronic transition in LiNbO3 waveguide and bulk material",

abstract = "We report that the polarization property of Er3+ transition in LiNbO3 waveguide or bulk material is closely related to the incident direction of excitation beam relative to the optical axis of the crystal. It is found that the 1.5-μm transition is highly σ-(π-) polarized as the excitation direction is perpendicular (parallel) to the optical axis, and the 0.67-μ m transition reveals a reversed effect. Incident perpendicularly (parallel), the transition is highly π-(σ-) polarized. The effect is found to be independent of the polarization state and wavelength of the excitation light. It is attributed to the selective Er site excitation. {\textcopyright} 2011 IEEE.",

keywords = "Excitation direction effect, polarization property of Er3+ electronic transition",

author = "De-Long Zhang and Li Qi and Ping-Rang Hua and Juan-Antonio Vall{\'e}s and Yu-Fang Wang and Bei Chen and Dao-Yin Yu and Pun, {Edwin Yue-Bun}",

year = "2011",

doi = "10.1109/LPT.2011.2157965",

language = "English",

volume = "23",

pages = "1198--1200",

journal = "IEEE Photonics Technology Letters",

issn = "1041-1135",

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TY - JOUR

T1 - Excitation direction effect on polarization property of Er3+ electronic transition in LiNbO3 waveguide and bulk material

AU - Zhang, De-Long

AU - Qi, Li

AU - Hua, Ping-Rang

AU - Vallés, Juan-Antonio

AU - Wang, Yu-Fang

AU - Chen, Bei

AU - Yu, Dao-Yin

AU - Pun, Edwin Yue-Bun

PY - 2011

Y1 - 2011

N2 - We report that the polarization property of Er3+ transition in LiNbO3 waveguide or bulk material is closely related to the incident direction of excitation beam relative to the optical axis of the crystal. It is found that the 1.5-μm transition is highly σ-(π-) polarized as the excitation direction is perpendicular (parallel) to the optical axis, and the 0.67-μ m transition reveals a reversed effect. Incident perpendicularly (parallel), the transition is highly π-(σ-) polarized. The effect is found to be independent of the polarization state and wavelength of the excitation light. It is attributed to the selective Er site excitation. © 2011 IEEE.

AB - We report that the polarization property of Er3+ transition in LiNbO3 waveguide or bulk material is closely related to the incident direction of excitation beam relative to the optical axis of the crystal. It is found that the 1.5-μm transition is highly σ-(π-) polarized as the excitation direction is perpendicular (parallel) to the optical axis, and the 0.67-μ m transition reveals a reversed effect. Incident perpendicularly (parallel), the transition is highly π-(σ-) polarized. The effect is found to be independent of the polarization state and wavelength of the excitation light. It is attributed to the selective Er site excitation. © 2011 IEEE.

KW - Excitation direction effect

KW - polarization property of Er3+ electronic transition

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U2 - 10.1109/LPT.2011.2157965

DO - 10.1109/LPT.2011.2157965

M3 - RGC 21 - Publication in refereed journal

SN - 1041-1135

VL - 23

SP - 1198

EP - 1200

JO - IEEE Photonics Technology Letters

JF - IEEE Photonics Technology Letters

IS - 17

M1 - 5776660

ER -