We propose a novel single polarization photonic band gap fiber (SP-PBGF) with an anisotropic air hole lattice in the core. An SP-PBGF with an elliptical air hole lattice in the core recently proposed can easily realize SP guidance utilizing the large difference of cutoff frequency for the x- and y-polarized modes. In this paper, in order to achieve SP guidance based on the same principle of this PBGF, we utilize an anisotropic lattice of circular air holes instead of elliptical air holes to ease the fabrication difficulty. After investigating the influence of the structural parameters on SP guidance, it is numerically demonstrated that the designed SP-PBGF has 381 nm SP operating band.
Kazuki ICHIKAWA
Muroran Insitute of Technology
Zejun ZHANG
Muroran Insitute of Technology
Yasuhide TSUJI
Muroran Insitute of Technology
Masashi EGUCHI
Chitose Institute of Science and Technology
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Kazuki ICHIKAWA, Zejun ZHANG, Yasuhide TSUJI, Masashi EGUCHI, "A Study on Single Polarization Guidance in Photonic Band Gap Fiber with Anisotropic Lattice of Circular Air Holes" in IEICE TRANSACTIONS on Electronics,
vol. E99-C, no. 7, pp. 774-779, July 2016, doi: 10.1587/transele.E99.C.774.
Abstract: We propose a novel single polarization photonic band gap fiber (SP-PBGF) with an anisotropic air hole lattice in the core. An SP-PBGF with an elliptical air hole lattice in the core recently proposed can easily realize SP guidance utilizing the large difference of cutoff frequency for the x- and y-polarized modes. In this paper, in order to achieve SP guidance based on the same principle of this PBGF, we utilize an anisotropic lattice of circular air holes instead of elliptical air holes to ease the fabrication difficulty. After investigating the influence of the structural parameters on SP guidance, it is numerically demonstrated that the designed SP-PBGF has 381 nm SP operating band.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/transele.E99.C.774/_p
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@ARTICLE{e99-c_7_774,
author={Kazuki ICHIKAWA, Zejun ZHANG, Yasuhide TSUJI, Masashi EGUCHI, },
journal={IEICE TRANSACTIONS on Electronics},
title={A Study on Single Polarization Guidance in Photonic Band Gap Fiber with Anisotropic Lattice of Circular Air Holes},
year={2016},
volume={E99-C},
number={7},
pages={774-779},
abstract={We propose a novel single polarization photonic band gap fiber (SP-PBGF) with an anisotropic air hole lattice in the core. An SP-PBGF with an elliptical air hole lattice in the core recently proposed can easily realize SP guidance utilizing the large difference of cutoff frequency for the x- and y-polarized modes. In this paper, in order to achieve SP guidance based on the same principle of this PBGF, we utilize an anisotropic lattice of circular air holes instead of elliptical air holes to ease the fabrication difficulty. After investigating the influence of the structural parameters on SP guidance, it is numerically demonstrated that the designed SP-PBGF has 381 nm SP operating band.},
keywords={},
doi={10.1587/transele.E99.C.774},
ISSN={1745-1353},
month={July},}
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TY - JOUR
TI - A Study on Single Polarization Guidance in Photonic Band Gap Fiber with Anisotropic Lattice of Circular Air Holes
T2 - IEICE TRANSACTIONS on Electronics
SP - 774
EP - 779
AU - Kazuki ICHIKAWA
AU - Zejun ZHANG
AU - Yasuhide TSUJI
AU - Masashi EGUCHI
PY - 2016
DO - 10.1587/transele.E99.C.774
JO - IEICE TRANSACTIONS on Electronics
SN - 1745-1353
VL - E99-C
IS - 7
JA - IEICE TRANSACTIONS on Electronics
Y1 - July 2016
AB - We propose a novel single polarization photonic band gap fiber (SP-PBGF) with an anisotropic air hole lattice in the core. An SP-PBGF with an elliptical air hole lattice in the core recently proposed can easily realize SP guidance utilizing the large difference of cutoff frequency for the x- and y-polarized modes. In this paper, in order to achieve SP guidance based on the same principle of this PBGF, we utilize an anisotropic lattice of circular air holes instead of elliptical air holes to ease the fabrication difficulty. After investigating the influence of the structural parameters on SP guidance, it is numerically demonstrated that the designed SP-PBGF has 381 nm SP operating band.
ER -