Title :
On the Maxwell-Duffing Approach to Model Photonic Deflection Sensor
Author :
Ibrahim, Abdelbaset M. A. ; Choudhury, P.K.
Author_Institution :
Sch. of Phys., Univ. Technol. MARA, Shah Alam, Malaysia
Abstract :
This paper deals with the conceptualization of Maxwell-Duffing theory to model photonic deflection sensor along with functionality, which is based on the phenomena of optical bi- and multistabilities. The sensing system is considered to be consisting of Kerr nonlinear material along with suitably positioned mirrors. The efficacy of the approach is emphasized through a series of numerical simulations, and the reliability of the system is discussed. Effects due to system memory and periodicity in the optical bistability threshold have been demonstrated. It has been found that the approach provides a powerful tool to study optical bistability in resonating structures, particularly for materials with large third-nonlinearity and for operating frequencies near the natural resonance of the material.
Keywords :
mirrors; numerical analysis; optical Kerr effect; optical bistability; optical sensors; reliability; Kerr nonlinear material; Maxwell-Duffing theory; mirrors; natural resonance; numerical simulations; operating frequencies; optical bistability threshold; optical multistabilities; periodicity; photonic deflection sensor; reliability; resonating structures; sensing system; system memory; third-order nonlinearity; Materials; Mathematical model; Mirrors; Optical bistability; Optical resonators; Optical sensors; Photonics; Kerr nonlinearity; Photonic deflection sensor; optical bistability;
Journal_Title :
Photonics Journal, IEEE
DOI :
10.1109/JPHOT.2013.2272318
