Enhanced FSR Asymmetrical Triple Optical Ring Resonator

The IUP Journal of Electrical & Electronics Engineering, Vol. XIII, No. 2, April 2020, pp. 71-6

Posted: 25 Mar 2021

See all articles by Parnab Saha

Parnab Saha

Narula Institute of Technology (NIT)

Sumanta Kundu

Narula Institute of Technology

Sanjoy Mandal

Indian Institute of Technology (ISM)

Multiple version iconThere are 2 versions of this paper

Date Written: March 12, 2020

Abstract

The paper proposes an Asymmetrical Triple Optical Ring Resonator (ATORR) and investigates its performances. Delay line signal processing scheme along with Mason’s Gain Formula is implemented to develop the transfer function of this configuration. Two different materials are used for this model, i.e., SOI (2.0167) and SIN (2.811), and their frequency responses are analyzed and compared to obtain different Free Spectral Range (FSR) outputs on MATLAB. Along with widening of FSR, crosstalks and resonance loss are also reduced. The extended FSR output is in THz range that has wide application in the field of photonics.

Keywords: Free Spectral Range (FSR), Asymmetrical Triple Optical Ring Resonator (ATORR), Transfer function

Suggested Citation

Saha, Parnab and Kundu, Sumanta and Mandal, Sanjoy, Enhanced FSR Asymmetrical Triple Optical Ring Resonator (March 12, 2020). The IUP Journal of Electrical & Electronics Engineering, Vol. XIII, No. 2, April 2020, pp. 71-6, Available at SSRN: https://ssrn.com/abstract=3803024

Parnab Saha (Contact Author)

Narula Institute of Technology (NIT) ( email )

81, Nilgunj Road
Agarpara
Kolkata, West Bengal 700 109
India

Sumanta Kundu

Narula Institute of Technology ( email )

Kolkata
West Bengal
India

Sanjoy Mandal

Indian Institute of Technology (ISM) ( email )

Dhanbad
Jharkhand
826004.
India

Do you have negative results from your research you’d like to share?

Paper statistics

Abstract Views
118
PlumX Metrics