Computing the propagation characteristics of radially stratified fibers: an efficient method

Yeh, C.; Lindgren, Gustav

doi:10.1364/ao.16.000483

Cited by 99 publications

(35 citation statements)

References 2 publications

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“…In the work reported here, the values of the core and cladding modes effective ( indices were obtained by solving numerically the dispersion relationship for a 4-layered fibre using the technique described by Yeh & Lindgren [12]. The predicted values were confirmed using Tsao's expressions for a dispersion relationship for a 4-layered fibre [11].…”

Section: Theoretical Modellingmentioning

confidence: 97%

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Gratings in novel fibre geometry for applications in shape sensing

et al. 2004

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A long period grating (LPG) fabricated in progressive three-layered (PTL) fibre is described. The grating with a period of 391µm, had dual attenuation bands associated with a particular cladding mode. The dual attenuation bands have been experimentally characterised for their spectral sensitivity to bending, which resulted in the highest sensitivity to bending seen for this particular fibre and temperature. The spectral characteristics of the fibre have been modelled giving good agreement to the experimental data as well as showing that the attenuation bands are both associated with the second order HE/EH 2,n cladding mode.

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Section: Theoretical Modellingmentioning

confidence: 97%

“…The number and the spectral properties of cladding modes are determined by the fibre structure [10][11][12]. The geometrical dependence is not apparent from equations (2) and (3), but is taken into account in deriving the dispersion relation for a given refractive index profile [12].…”

Section: Theoretical Modellingmentioning

confidence: 99%

Gratings in novel fibre geometry for applications in shape sensing

et al. 2004

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“…It is well known [46,47] that for multi-layer waveguide the straightforward derivation yields dispersion equation in the form of zero determinant of large size matrix. To avoid problems associated with such matrices, the so-called matrix approach was proposed in [46].…”

Section: Circular Conducting Waveguide With Dielectric-lined Wallmentioning

confidence: 99%

“…To avoid problems associated with such matrices, the so-called matrix approach was proposed in [46]. Our approach is the alternative.…”

Section: Circular Conducting Waveguide With Dielectric-lined Wallmentioning

confidence: 99%

Analogy Between Circular Core-Cladding and Impedance Waveguides and Their Membrane Functions

Shcherbinin¹,

Zaginaylov²,

Ткаченко³

2017

PIER M

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Abstract-One-side boundary conditions on the field inside core region are obtained for core-cladding waveguide with anisotropic cladding. The boundary conditions involve two functions acting as components of anisotropic surface impedance for cladding material. These functions are determined in relation to desired values for step-index waveguide and dielectric-lined waveguide with either perfectly or finitely conducting walls. With resulting surface impedance, the perfect analogy between corecladding and impedance waveguide is achieved. Using this analogy, independent eigenvalue problems are obtained for membrane functions of HE and EH waves of core-cladding waveguide. From this result some conclusions about electromagnetic properties of HE and EH waves are drawn.

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“…First, we must express the fields in cylindrical coordinates in terms of physical parameters and arbitrary coefficients. [92] However, using the basis representation found in [93], the tangential fields can be matched at all…”

Section: A1 Propagation Physicsmentioning

confidence: 99%

3-D Terahertz Synthetic-Aperture Imaging and Spectroscopy

Henry¹

2000

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Computing the propagation characteristics of radially stratified fibers: an efficient method

Cited by 99 publications

References 2 publications

Gratings in novel fibre geometry for applications in shape sensing

Gratings in novel fibre geometry for applications in shape sensing

Analogy Between Circular Core-Cladding and Impedance Waveguides and Their Membrane Functions

3-D Terahertz Synthetic-Aperture Imaging and Spectroscopy

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