Researching | Research on Influence of Drawing Tension and Heat Treatment on the Birefringence of Panda-type Polarization-Maintaining Fiber

Journals >Acta Photonica Sinica >Volume 50 >Issue 11 >Page 1106002 > Article

Acta Photonica Sinica
Vol. 50, Issue 11, 1106002 (2021)

Research on Influence of Drawing Tension and Heat Treatment on the Birefringence of Panda-type Polarization-Maintaining Fiber

Jiacheng XU^1,2, Fei YU^1,3,*, Bingsheng XU^1,2, Chunlei YU^1,3, and Lili HU^1,3

Author Affiliations

¹Key Laboratory of Materials for High Power Laser，Shanghai Institute of Optics and Fine Mechanics，Chinese Academy of Sciences，Shanghai 201800，China

²Center of Materials Science and Optoelectronics Engineering，University of Chinese Academy of Sciences，Beijing 100049，China

³Hangzhou Institute for Advanced Study，University of Chinese Academy of Sciences，Hangzhou 310024，China

show less

DOI: 10.3788/gzxb20215011.1106002 Cite this Article

Jiacheng XU, Fei YU, Bingsheng XU, Chunlei YU, Lili HU. Research on Influence of Drawing Tension and Heat Treatment on the Birefringence of Panda-type Polarization-Maintaining Fiber[J]. Acta Photonica Sinica, 2021, 50(11): 1106002 Copy Citation Text

show less

References

[1] J NODA, K OKAMOTO, Y SASAKI. Polarization-maintaining fibers and their applications. Journal of Lightwave Technology, 4, 1071-1089(1986).

[2] H C LEFÈVRE. The fiber-optic gyroscope(2014).

[3] R B DYOTT, J R COZENS, D G MORRIS. Preservation of polarization in optical-fibre waveguides with elliptical cores. Electronics Letters, 15, 380-382(1979).

[4] V RAMASWAMY, R H STOLEN, M D DIVINO et al. Birefringence in elliptically clad borosilicate single-mode fibers. Applied Optics, 18, 4080-4084(1979).

[5] J SIMPSON, R STOLEN, F SEARS et al. A single-polarization fiber. Journal of Lightwave Technology, 1, 370-374(1983).

[6] M P VARNHAM, D N PAYNE, R D BIRCH et al. Single-polarization operation of highly birefringent bow-tie optical fibers. Electronics Letters, 19, 246-247(1983).

[7] Y SASAKI, T HOSAKA, J NODA. Low-loss polarization-maintaining optical fiber with low crosstalk. Electronics Letters, 21, 156-157(1985).

[8] G W SCHERER. Stress-induced index profile distortion in optical-waveguides. Applied Optics, 19, 2000-2006(1980).

[9] A J BARLOW, D N PAYNE. The stress-optic effect in optical fibers. IEEE Journal of Quantum Electronics, 19, 834-839(1983).

[10] Rongfeng GUAN, Rongfeng ZHU, Zhiyin GAN et al. Stress birefringence analysis of polarization maintaining optical fibers. Optical Fiber Technology, 11, 240-254(2005).

[11] A CORSI, J H CHANG, R H WANG et al. Highly elliptical core fiber with stress-induced birefringence for mode multiplexing. Optics Letters, 45, 2822-2825(2020).

[12] P KIIVERI, J KOPONEN, J HARRA et al. Stress-induced refractive index changes in laser fibers and preforms. IEEE Photonics Journal, 11, 1-10(2019).

[13] A OURMAZD, M P VARNHAM, R D BIRCH et al. Thermal-properties of highly birefringent optical fibers and preforms. Applied Optics, 22, 2374-2379(1983).

[14] F JUST, R SPITTEL, J BIERLICH et al. The influence of the fiber drawing process on intrinsic stress and the resulting birefringence optimization of PM fibers. Optical Materials, 42, 345-350(2015).

[15] U C PAEK, C R KURKJIAN. Calculation of cooling rate and induced stresses in drawing of optical fibers. Journal of the American Ceramic Society, 58, 330-335(1975).

[16] Qiuju ZHENG, J C MAURO. Viscosity of glass-forming systems. Journal of the American Ceramic Society, 100, 6-25(2017).

[17] P K BACHMANN, W HERMANN, H WEHR et al. Stress in optical waveguides. 2: Fibers. Applied Optics, 26, 1175-1182(1987).

[18] L RONGVED, C R KURJIAN, F T GEYLING. Mechanical tempering of optical fibers. Journal of Non-Crystalline Solids, 42, 579-584(1980).

[19] Haozhe YAN, Shangyuan LI, Zhengyang XIE et al. Design of PANDA ring-core fiber with 10 polarization-maintaining modes. Photonics Research, 5, 1-5(2017).

[20] Jingming SONG, Kang SUN, Shuai LI et al. Phase sensitivity to temperature of the guiding mode in polarization-maintaining photonic crystal fiber. Applied Optics, 54, 7330-7334(2015).

[21] W PRIMAK, D POST. Photoelastic constants of vitreous silica and its elastic coefficient of refractive index. Journal of Applied Physics, 30, 779-788(1959).

[22] Nuan JIANG, Zhizhong LI, Huayong YANG et al. Birefringence analysis of polarization maintaining fiber and research on characteristic of all-fiber beat-length experimental systems. Acta Optica Sinica, 32, 0706003(2012).

[23] Jiazhi LI, Xuexian CHEN, Liangen SHEN. Structural relaxation of glass. Journal of the Chinese Ceramic Society, 3, 88-97(1983).

[24] S C RASHLEIGH, M J MARRONE. Temperature-dependence of stress birefringence in an elliptically clad fiber. Optics Letters, 8, 127-129(1983).

[25] I ABE, V DE OLIVEIRA, H J KALINOWSKI. Measurements of the birefringence temperature dependence in polarization maintaining fibre optics using Bragg gratings, 8794, 2097-2104(2013).

[26] Jiazhi LI, Jieyao LUO, Huimin CHEN. Study on the internal friction of Li2O-K2O-Al2O3-SiO2 system glass-ceramics (1) before crystallization. Chinese Science Bulletin, 15, 353-357(1964).

Get PDF(in Chinese)

Figures&Tables (13)

References (26)

Copy Citation Text

Jiacheng XU, Fei YU, Bingsheng XU, Chunlei YU, Lili HU. Research on Influence of Drawing Tension and Heat Treatment on the Birefringence of Panda-type Polarization-Maintaining Fiber[J]. Acta Photonica Sinica, 2021, 50(11): 1106002

Download Citation

Save the article for my favorites

Paper Information

Recommended Topics

laser devices and laser physics

Lasers and Laser Optics

laser manufacturing

Instrumentation, Measurement and Metrology

Set citation alerts for the article

Please enter your email address