科技论文和展示

这里您可以找到在全球 COMSOL 年会上所有用户报告的演示文稿。这些演示文稿介绍 COMSOL 用户是如何使用 COMSOL Multiphysics 进行创新性研究和产品设计。研究主题涵盖了包括电气、机械、流体和化工等范围广泛的行业和应用领域。请使用“快速搜索”来查找与您的研究领域相关的演示文稿。

Multiphysics Investigation of Thermo-optic Effects in Silicon-on-Insulator Waveguide Arrays

F. Magno, F. Dell’Olio, and V.M.N. Passaro
Politecnico di Bari

A theoretical investigation of thermo-optic effect in Silicon-on-Insulator (SOI) rib waveguides and waveguide arrays by means of the Finite Element Method (FEM) has been carried out. Both static and dynamic analyses have been performed.

Structural Acoustic Modeling and PML's in COMSOL Multiphysics

M. Zampolli
NATO Undersea Research Centre, La spezia

In water we can’t see far, because light and electromagnetic waves are absorbed over relatively short distances. In contrast, sound travels very well in water In fact it is well known that marine mammals rely on sound for communication over large distances, and some of them even use sound to locate their target while hunting. In this presentation we provide an overview of the principles of ...

Diffusion Processes in the Human Brain using COMSOL Multiphysics

C. Cherubini[1,2], S. Filippi[1,2], and A. Gizzi[1]
[1] Università Campus Biomedico di Roma
[2] University of Rome

This article discusses the RMN import of a brain geometry in COMSOL Multiphysics via an interpolating function. The physical property associated with the grayscale is the diffusivity tensor, assumed here to be isotropic but inhomogeneous. Applications to anti-tumor drug delivery and cancer growth processes are discussed.

Silicon-on-Insulator MOS Optical Modulators

F. Dell’Olio, F. De Leonardis, and V.M.N. Passaro
Politecnico di Bari

One of the most important requirements of any integrated optical technology is the ability to perform optical modulation, which permits to encode a bit stream onto the optical carrier provided by the laser source. In this paper a multiphysics model for silicon modulators adopting a Metal Oxide Semiconductor (MOS) structure is presented.

Use of COMSOL Multiphysics in the Modeling of Ion Source Extraction

M. Cavenago
Laboratori Nazionali di Legnaro

A two dimensional description of plasma charged sheath and ion extraction, including the complete plasma sheath equation, is proposed and reduced to a system of coupled fields, implemented with use of COMSOL Multiphysics. A separate application of the weak form to the Hamilton-Jacobi and Poisson equations is also described, using five coupled fields.

Coupling of Catalytic Endothermic and Exothermic Reactions by CPR

S. Vaccaro, G. Ferrazzano, and P. Ciambelli
Università di Salerno

Mathematical modelling of a catalytic plate reactor for methane steam reforming with COMSOL Multiphysics was carried out. The model reactor includes three channels where methane combustion occurs on the plates bordering the inner side of the outermost channels, whereas methane steam reforming takes place on the plates bordering the central channel.

Cyclic Voltammetry Simulation at Microelectrode Arrays

A. Lavacchi, U. Bardi, S. Caporali, A. Fossati, and I. Perissi
University of Firenze

In the present paper we report the results obtained applying COMSOL Multiphysics to the numerical simulation of Cyclic Voltammetries (CV’s) at microelecrodes arrays. CV’s at inlaid micro disk electrode arrays have been simulated showing how the electrochemical response is affected by geometrical parameters such as the electrode radius and the distance among the electrode canters.

3D Simulation and Experimental Comparison of Temperature Dynamics in Laser Welded Cornea

F. Rossi[1], R. Pini[1], and L. Menabuoni[2]
[1] Istituto di Fisica Applicata, CNR, Firenze
[2] U.O. Oculistica, Prato

3D model analysis of the temperature dynamics during a welding process is presented. Bio-heat equation described laser-tissue interaction in porcine and human eyes, simulating the surgery conditions. The modeled behavior of the superficial cornea temperature was compared with direct measurements performed by an infrared thermo-camera. The results indicated a selective, spatially-confined ...

Design of Electro-Optic Bragg Amplitude Modulators

A. Secchi[1], V. Foglietti[1], E. Cianci[1], L. Pierno[2], and M. Dispenza[2]
[1] CNR-IFN, Italy
[2] SELEX-SI, Italy

The subject of this work is the design of a LiNbO3 electro-optic tuned Bragg filter to be used as an amplitude modulator. We analyze in detail the realized waveguide and simulate the grating, developing a fabrication methodology for building the Bragg modulator by niobate core etching. Finally, we evaluate the performance of the modulator, using the finite element method analysis.

Transient Heat Conduction in Solids Irradiated by a Moving Heat Source

N.Bianco, O.Manca, S. Nardini, and S. Tamburrino
Università degli Studi di Napoli, Italy

Transient three-dimensional temperature distribution in a solid, irradiated by a moving Gaussian laser beam, was investigated numerically by means of COMSOL Multiphysics. Convection and radiation from the work-piece surfaces as well as variable thermophysical properties are accounted for.

Quick Search

1 - 10 of 34 First | < Previous | Next > | Last