See How Multiphysics Simulation Is Used in Research and Development

Engineers, researchers, and scientists across industries use multiphysics simulation to research and develop innovative product designs and processes. Find inspiration in technical papers and presentations they have presented at the COMSOL Conference. Browse the selection below or use the Quick Search tool to find a specific presentation or filter by application area.


View the COMSOL Conference 2023 Collection

Optics, Photonics and Semiconductorsx

DESIGN OPTIMIZATION FOR A HIGH SOLAR ACCEPTANCE PLANAR WAVEGUIDE-BASED LIGHT CONCENTRATOR new

ANIMESH M R1, ADERSH ASOK2
1Ph.D. Scholar, Centre for Sustainable Energy Technologies, CSIR-National Institute for Interdisciplinary Science and Technology
2Scientist, Centre for Sustainable Energy Technologies, CSIR-National Institute for Interdisciplinary Science and Technology

Solar energy, being the most abundant natural source of renewable energy, will play a crucial role in the ongoing global renewable energy translation. However, energy converted utilization of solar energy, which can be either thermal or electrical, technologies have the limitation of ... Read More

FEM-based Electrical Analysis of 3D-MOSFET new

Rishikesh Datar1, Amogh Patwardhan1, Shreyas Deshpande1, Gautam Bacher1
1Department of Electrical and Electronics Engineering, BITS Pilani K K Birla Goa Campus, Goa - 403726, India.

The fundamental and essential component of the semiconductor electronics industry is the Metal Oxide Semiconductor Field Effect Transistor (MOSFET). The 2D model of MOSFET is widely reported and available in the application library of COMSOL Multiphysics®. However, the 3D model of MOSFET ... Read More

Third harmonic generation from multilayer Van der Waals nanophotonic structure new

Rabindra Biswas1, Asish Prosad1, Varun Raghunathan1
1Indian Institute of Science, Bengaluru, INDIA

Multilayer transition metal dichalcogenides (TMDCs) are an emerging class of dielectric materials with promising applications in modern nanophotonics. They exhibit a much higher refractive index (~ 4 - 4.5) than traditional semiconducting materials like Silicon (~ 3.5) in the near ... Read More

Plane-wave Expansion based modelling of Cassegrain-type Reflective Objective new

Lal Krishna A S1, Jayanta Deka1, Jyothsna K. M. 1, Rabindra Biswas1, Varun Raghunathan1
1Indian Institute of Science

Cassegrain-type reflective objectives are widely utilized when performing high resolution infrared optical micro-spectroscopy experiment. Experiments involving the mixing of two or more colors of photons, widely separated in wavelength, greatly benefit from such mirror-based objectives ... Read More

Wavelength Bit-rate Tunable Silicon – Organic hybrid Modulator using commercially Available HLD new

Arathy krishna 1, Dr Prita Nair1
1Shiv Nadar University Chennai

On-chip photonic modulators designs currently use NLO material stacks such as LiNbO3 or BaTiO3 on Si or use current injection across silicon waveguides to induce phase change required for optical modulation(Li 2020)(Li 2019). The other silicon compatible option explored is silicon ... Read More

Topologically enhanced guided mode resonance sensing of fluid refractive index variations new

Swathy R1, Likhith R1, S M Harshitha1, Kaustav Bhowmick1
1PES University, Bangalore, Karnataka, India

The present work explores the integration of guided mode resonance (GMR) structures and topological photonics, characterized by the presence of Jackiw-Rebbi (J-R) solution. The developed surface enhanced GMR structure may serve as a platform for refractive index sensing across various ... Read More

Mechanistic study of plasmonic photocatalysts through near-electric field simulations new

Ramesh Asapu1, Siegfried Denys2, Sammy Verbruggen2, Silvia Lenaerts2
1IIT Jodhpur, Rajasthan, India
2University of Antwerp, Belgium

The mechanism of plasmonic photocatalytic systems is still debated as the two major mechanistic pathways, i.e., near-electric field and hot electron transfer for semiconductor photocatalytic systems coupled with small size (dia. < 25 nm) plasmon nanoparticles, are specific to the ... Read More

Polarizability of a Spherical Particle in an Anisotropic Medium

Gaurav Bansode1, Karthik Sasihithlu1
1Indian Institute of Technology Bombay, Powai, India 400076

As part of our primary research focus, we explore the phenomenon of non-radiative resonance energy transfer (RET) between a pair of dipoles positioned within a hyperbolic metamaterial (HMM). Our investigation reveals that the presence of an HMM can fundamentally alter these non-radiative ... Read More

Modelling of Thermal Stress in Yb:YAG to Quantify Depolarisation in a Nanosecond 10 J, 100 Hz Laser

G. Quinn1, M. De Vido1
1Central Laser Facility, STFC Rutherford Appleton Laboratory, Didcot, OX11 0QX, United Kingdom

The high heat loads intrinsically associated with high-energy, high repetition rate laser systems require sophisticated thermal management analyses to minimise the impact of thermal effects on optical performance. Non-uniform heat deposition in optical elements can lead to the onset of ... Read More

Design and Simulation of Bragg Grating Based Optomechanical Sensor for Atomic Force Microscopy

Yide Zhang1, Liam O’Faolain2, Georg Ramer3
11. Institute of Chemical Technologies and Analytics, TU Wien, Vienna, 1060 Austria 2. Centre for Advanced Photonics and Process Analysis, Munster Technological University, Cork, T12P928, Ireland 3. Tyndall National Institute, Cork, T12R5CP, Ireland
2Centre for Advanced Photonics and Process Analysis, Munster Technological University, Cork, T12P928, Ireland, Tyndall National Institute, Cork, T12R5CP, Ireland
3Institute of Chemical Technologies and Analytics, TU Wien, Vienna, 1060 Austria

Atomic force microscopy (AFM) has been widely recognized as an essential tool that enables the imaging of surface, measuring and localizing many different forces and becoming a standard technique for force spectroscopy at the nanoscale. While conventional AFM is well-developed, recent ... Read More

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