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FDTD Modeling and Simulation of Organic Light Emitting Diode with Improved Extraction Efficiency using Moth-eye Anti Reflective Coatings
- B. M. Chaya, M. Venkatesha, Shruthi Neduri, N. Krishnaswamy
- Materials Science, Computer Science
- PHOTOPTICS
- 4 April 2018
TLDR
Modeling and Analysis of SOI Grating Coupler for Bio-sensing Applications
- M. Venkatesha, K. R. Vismaya, A. U. Prashanth, M. Vyshnavi, K. Narayan
- Materials Science
- IEEE Photonics Conference (IPC)
- 1 September 2018
This work presents, analysis of SOI optical grating structure operating at 1310 nm wavelength. Power coupling analysis between optical source and grating structure is done. The maximum power coupling… Expand
Modelling and Analysis of Nanosphere Biosensor
- K. Asha, K. Suryanarayanan, M. Venkatesha, K. Narayan
- Materials Science
- 1 July 2020
Nano-sphere biosensor is an effective biosensing device used in the applications such as detection of various diseases, safety monitoring of food, diagnosis of cancer. In this work the modeling and… Expand
Effects of 2D Photonic Crystals in Organic Light Emitting Diode
- B. M. Chaya, M. Venkatesha, P. Pattnaik, K. Narayan
- Materials Science
- 4 December 2016
Finite Difference Time Domain modelling of 2D-Photonic crystals is presented. The photonic band structure is analyzed to find the effects of Bloch vectors. The Organic Light Emitting Diode enhances… Expand
Design and Analysis of Graphene-Based Single Mode SOI Integrated Optical Sensor
- M. Venkatesha, Vaibhav L Shah, Sylvester Jatta, K. Narayan
- Materials Science
- IEEE Photonics Conference (IPC)
- 1 September 2018
In this study, use of graphene in reduction of optical power loss occurring in SOI waveguides at red wavelength region has been presented. In comparison with SOI waveguide, 17.07% reduction in… Expand
USE OF POLYETHYLENE BAGS TO EXTEND THE SHELF LIFE OF GUVA AND COCCINIA
- M. Venkatesha
- Environmental Science
- 1991
Improved Light Extraction Efficiency of Organic Light Emitting Diode using Photonic Crystals
- B. M. Chaya, M. Venkatesha, N. Ananya, K. Narayan
- Materials Science
- PHOTOPTICS
- 2017
In this work modelling of two dimensional of a fluorescence based Organic Light Emitting Diode (OLED) using plastic as flexible substrate is presented. The Finite Difference Time Domain (FDTD)… Expand
Effect of Moth-Eye Antireflective Coatings in Extraction of Far Field Intensity of an Organic Light Emitting Diode (OLED)
- M. ChayaB., M. Venkatesha, K. Narayan
- Materials Science
- 1 December 2017
In this work, the OLED is modelled using Moth-eye Anti Reflective coatings to extract maximum far field intensity compared to Conventional OLED. Finite difference time domain method is used to… Expand
Single Mode Graphene based Waveguide for Integrated Optical Biosensors at Visible Wavelength
- M. Venkatesha, B. M. Chaya, P. Pattnaik, K. Narayan
- Materials Science
- 4 December 2016
In this work we present a Comparative analysis between SOI waveguide and graphene based waveguide at visible wavelength, significant reduction in losses is observed in graphene based waveguide making… Expand
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