Coupled thermal-optic effects and electrical modulation mechanism of birefringence crystal with Gaussian laser incidence
We study the Gaussian laser transmission in lithium niobate crystal(LiNbO3) by using the finite element method to solve the electromagnetic field's frequency domain equation and energy equation. The heat generated is identified by calculating the transmission loss of the electromagnetic wave in the...
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| Published in | Chinese physics B Vol. 24; no. 9; pp. 223 - 234 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
01.09.2015
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1674-1056 2058-3834 1741-4199 |
| DOI | 10.1088/1674-1056/24/9/094203 |
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| Abstract | We study the Gaussian laser transmission in lithium niobate crystal(LiNbO3) by using the finite element method to solve the electromagnetic field's frequency domain equation and energy equation. The heat generated is identified by calculating the transmission loss of the electromagnetic wave in the birefringence crystal, and the calculated value of the heat generated is substituted into the energy equation. The electromagnetic wave's energy losses induced by its multiple refractions and reflections along with the resulting physical property changes of the lithium niobate crystal are considered.Influences of ambient temperature and heat transfer coefficient on refraction and walk-off angles of O-ray and E-ray in the cases of different incident powers and crystal thicknesses are analyzed. The E-ray electrical modulation instances, in which the polarized light waveform is adjusted to the rated condition via an applied electrical field in the cases of different ambient temperatures and heat transfer coefficients, are provided to conclude that there is a correlation between ambient temperature and applied electrical field intensity and a correlation between surface heat transfer coefficient and applied electrical field intensity. The applicable electrical modulation ranges without crystal breakdown are proposed. The study shows that the electrical field-adjustable heat transfer coefficient range becomes narrow as the incident power decreases and wide as the crystal thickness increases. In addition, it is pointed out that controlling the ambient temperature is easier than controlling the heat transfer coefficient. The results of the present study can be used as a quantitative theoretical basis for removing the adverse effects induced by thermal deposition due to linear laser absorption in the crystal, such as depolarization or wave front distortion, and indicate the feasibility of adjusting the refractive index in the window area by changing the heat transfer boundary conditions in a wide-spectrum laser. |
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| AbstractList | We study the Gaussian laser transmission in lithium niobate crystal(LiNbO3) by using the finite element method to solve the electromagnetic field's frequency domain equation and energy equation. The heat generated is identified by calculating the transmission loss of the electromagnetic wave in the birefringence crystal, and the calculated value of the heat generated is substituted into the energy equation. The electromagnetic wave's energy losses induced by its multiple refractions and reflections along with the resulting physical property changes of the lithium niobate crystal are considered.Influences of ambient temperature and heat transfer coefficient on refraction and walk-off angles of O-ray and E-ray in the cases of different incident powers and crystal thicknesses are analyzed. The E-ray electrical modulation instances, in which the polarized light waveform is adjusted to the rated condition via an applied electrical field in the cases of different ambient temperatures and heat transfer coefficients, are provided to conclude that there is a correlation between ambient temperature and applied electrical field intensity and a correlation between surface heat transfer coefficient and applied electrical field intensity. The applicable electrical modulation ranges without crystal breakdown are proposed. The study shows that the electrical field-adjustable heat transfer coefficient range becomes narrow as the incident power decreases and wide as the crystal thickness increases. In addition, it is pointed out that controlling the ambient temperature is easier than controlling the heat transfer coefficient. The results of the present study can be used as a quantitative theoretical basis for removing the adverse effects induced by thermal deposition due to linear laser absorption in the crystal, such as depolarization or wave front distortion, and indicate the feasibility of adjusting the refractive index in the window area by changing the heat transfer boundary conditions in a wide-spectrum laser. We study the Gaussian laser transmission in lithium niobate crystal (LiNbO[sub 3]) by using the finite element method to solve the electromagnetic field's frequency domain equation and energy equation. The heat generated is identified by calculating the transmission loss of the electromagnetic wave in the birefringence crystal, and the calculated value of the heat generated is substituted into the energy equation. Influences of ambient temperature and heat transfer coefficient on refraction and walk-off angles of O-ray and E-ray in the cases of different incident powers and crystal thicknesses are analyzed. The results of the present study can be used as a quantitative theoretical basis for removing the adverse effects induced by thermal deposition due to linear laser absorption in the crystal, such as depolarization or wave front distortion, and indicate the feasibility of adjusting the refractive index in the window area by changing the heat transfer boundary conditions in a wide-spectrum laser. |
| Author | 周吉 贺志宏 马宇 董士奎 |
| AuthorAffiliation | School of Energy Science and Engineering, Harbin Institute of Technology, Harbin 150001, China |
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| Cites_doi | 10.1109/3.44926 10.1016/S0925-3467(03)00017-X 0253-231X(2014)08-1633-04 10.1016/j.amc.2012.03.101 10.1109/JLT.2014.2319818 10.1016/0031-9163(66)90591-9 10.1364/JOSAB.15.002868 10.1063/1.4891998 10.1117/1.2752177 10.1364/AO.49.002606 10.1016/j.optlastec.2005.05.017 10.1117/12.2037321 10.1016/0022-0248(91)90009-T 10.1016/j.optlastec.2011.12.053 10.1063/1.1673781 10.1364/OL.22.001553 10.1364/AO.53.006243 10.1364/AO.52.005208 10.1107/S1600576714000454 10.1117/12.904288 10.1080/10407780903583008 10.1016/j.jqsrt.2004.08.010 10.1134/S1063785008090290 10.1364/OL.38.001385 |
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| DocumentTitleAlternate | Coupled thermal-optic effects and electrical modulation mechanism of birefringence crystal with Gaussian laser incidence |
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| Notes | birefringence,electro-optic modulators,thermo-optic effects 11-5639/O4 We study the Gaussian laser transmission in lithium niobate crystal(LiNbO3) by using the finite element method to solve the electromagnetic field's frequency domain equation and energy equation. The heat generated is identified by calculating the transmission loss of the electromagnetic wave in the birefringence crystal, and the calculated value of the heat generated is substituted into the energy equation. The electromagnetic wave's energy losses induced by its multiple refractions and reflections along with the resulting physical property changes of the lithium niobate crystal are considered.Influences of ambient temperature and heat transfer coefficient on refraction and walk-off angles of O-ray and E-ray in the cases of different incident powers and crystal thicknesses are analyzed. The E-ray electrical modulation instances, in which the polarized light waveform is adjusted to the rated condition via an applied electrical field in the cases of different ambient temperatures and heat transfer coefficients, are provided to conclude that there is a correlation between ambient temperature and applied electrical field intensity and a correlation between surface heat transfer coefficient and applied electrical field intensity. The applicable electrical modulation ranges without crystal breakdown are proposed. The study shows that the electrical field-adjustable heat transfer coefficient range becomes narrow as the incident power decreases and wide as the crystal thickness increases. In addition, it is pointed out that controlling the ambient temperature is easier than controlling the heat transfer coefficient. The results of the present study can be used as a quantitative theoretical basis for removing the adverse effects induced by thermal deposition due to linear laser absorption in the crystal, such as depolarization or wave front distortion, and indicate the feasibility of adjusting the refractive index in the window area by changing the heat transfer boundary conditions in a wide-spectrum laser. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 |
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| References | 22 23 24 25 26 27 Zhang J (4) 2014; 23 Kovetz A (28) 1990 10 11 12 13 14 15 16 17 19 Zhao H (18) 2012; 21 Wu Y (3) 2013; 30 1 2 5 6 7 8 Dmitriev V G (30) 2009 9 Yariv A (29) 1984 20 21 |
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| Snippet | We study the Gaussian laser transmission in lithium niobate crystal(LiNbO3) by using the finite element method to solve the electromagnetic field's... We study the Gaussian laser transmission in lithium niobate crystal (LiNbO[sub 3]) by using the finite element method to solve the electromagnetic field's... |
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| SubjectTerms | Birefringence Crystals Energy transmission Gaussian Lasers Lithium niobates Mathematical analysis Modulation 入射功率 双折射晶体 激光传输 热效应 表面传热系数 调制机理 铌酸锂晶体 高斯 |
| Title | Coupled thermal-optic effects and electrical modulation mechanism of birefringence crystal with Gaussian laser incidence |
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