Vol. 30 No. 4 (2020)
Papers

Feature Properties of Photonic Crystal Fiber with Hollow Core Filled Nitrobenzene

Vu Tran Quoc
Thu Khoa Nghia High School for The Gifted, Chau Doc City, An Giang province, Vietnam
Trang Chu Thi Gia
School of Engineering and Technology, Vinh University, 182 Le Duan, Vinh city, Vietnam
Thuy Nguyen Thi
3Hue University of Education, Hue University, 34 Le Loi Street - Hue City, Vietnam
Phuong Nguyen Thi Hong
Nguyen Chi Thanh High School, Hoa Thanh district, Tay Ninh Province, Viet Nam
Khoa Doan Quoc
Quang Tri Teacher Training College, Km 3, Highway No 9, Dong Ha, Quang Tri, Vietnam
Khoa Dinh Xuan
School of Natural Science Education, Vinh University, 182 Le Duan, Vinh City, Vietnam
Bao Le Xuan
School of Natural Science Education, Vinh University, 182 Le Duan, Vinh City, Viet Nam
Ngoc Vo Thi Minh
Huynh Thuc Khang High School, La Grai district, Gia Lai Province, Viet Nam
Lanh Chu Van
School of Natural Science Education, Vinh University, 182 Le Duan, Vinh City, Vietnam
Cover Vol 30 No 4 December 2020

Published 20-10-2020

Keywords

  • Photonic crystal fibers,
  • Nonlinear optical materials,
  • Supercontinuum generation.

How to Cite

Tran Quoc, V., Chu Thi Gia, T., Le Van, M., Nguyen Thi, T., Nguyen Thi Hong, P., Doan Quoc, K., Dinh Xuan, K., Le Xuan, B., Vo Thi Minh, N., & Chu Van, L. (2020). Feature Properties of Photonic Crystal Fiber with Hollow Core Filled Nitrobenzene. Communications in Physics, 30(4), 331. https://doi.org/10.15625/0868-3166/30/4/14888

Abstract

In this paper, a photonic crystal fiber (PCF) with core infiltrated with Nitrobenzene is proposed and investigated. Its feature properties as the effective refractive index, effective mode area, chromatic dispersion, and confinement loss have been numerically simulated. The obtained results show that characteristic quantities of PCF with core infiltrated with Nitrobenzene (PCF-N) having some advantages in comparison to PCF with core infiltrated with Toluene (PCF-T) at 1.55μm wavelength. For the purpose of supercontinuum generation, two optimal structures with lattice constants 2.0μm and 2.5μm with filling factors d/Ʌ = 0.3 are identified.

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