Add to ORKG[[abstract]]In this paper, we propose a different method to study wave propagation in longitudinally invariant waveguides with arbitrary index profile. In our method, both the electric field and the refractive index profile are expanded into two Fourier cosine series. With these series substituted into the wave equation, a differential matrix equation can then be obtained. We show here that such a matrix equation can be solved and an explicit expression for the wave field at any longitudinal position along an optical waveguide can be obtained. The solution proposed in this method can thus exclude the use of the beam propagation algorithm. This study demonstrates that our approach yields the same results as those obtained by using commercial...
A new method for obtaining total field solutions and propagation constants for planar optical wavegu...
In this chapter, a single mode rib optical waveguide is modeled using three distinct methods which i...
[[abstract]]A new semi-analytic method for solving optical rib-type waveguide problems is presented....
[[abstract]]In this paper, we propose a different method to study wave propagation in longitudinally...
[[abstract]]In this paper, we propose a different method to study wave propagation in longitudinally...
[[abstract]]In this paper, we propose a new method to study wave propagation in Longitudinally invar...
[[abstract]]© 1999 Institute of Electrical and Electronics Engineers - This letter presents a novel ...
[[abstract]]Application of a previously proposed matrix method (which can only be used for TE mode s...
[[abstract]]© 2001 Institute of Electrical and Electronics Engineers - Application of a previously p...
[[abstract]]Application of a previously proposed matrix method (which can only be used for TE mode s...
International audienceThis paper presents a systematic method to derive Beam Propagation Models for ...
A new method for solving the scalar Helmholtz equation to obtain the propagation of total fields or ...
A method for obtaining total field solutions from the Helmholtz equation for optical waveguiding str...
International audienceThis paper presents a systematic method to derive Beam Propagation Models for ...
International audienceThis paper presents a systematic method to derive Beam Propagation Models for ...
A new method for obtaining total field solutions and propagation constants for planar optical wavegu...
In this chapter, a single mode rib optical waveguide is modeled using three distinct methods which i...
[[abstract]]A new semi-analytic method for solving optical rib-type waveguide problems is presented....
[[abstract]]In this paper, we propose a different method to study wave propagation in longitudinally...
[[abstract]]In this paper, we propose a different method to study wave propagation in longitudinally...
[[abstract]]In this paper, we propose a new method to study wave propagation in Longitudinally invar...
[[abstract]]© 1999 Institute of Electrical and Electronics Engineers - This letter presents a novel ...
[[abstract]]Application of a previously proposed matrix method (which can only be used for TE mode s...
[[abstract]]© 2001 Institute of Electrical and Electronics Engineers - Application of a previously p...
[[abstract]]Application of a previously proposed matrix method (which can only be used for TE mode s...
International audienceThis paper presents a systematic method to derive Beam Propagation Models for ...
A new method for solving the scalar Helmholtz equation to obtain the propagation of total fields or ...
A method for obtaining total field solutions from the Helmholtz equation for optical waveguiding str...
International audienceThis paper presents a systematic method to derive Beam Propagation Models for ...
International audienceThis paper presents a systematic method to derive Beam Propagation Models for ...
A new method for obtaining total field solutions and propagation constants for planar optical wavegu...
In this chapter, a single mode rib optical waveguide is modeled using three distinct methods which i...
[[abstract]]A new semi-analytic method for solving optical rib-type waveguide problems is presented....