Scopri come la simulazione multifisica viene utilizzata per ricerca e sviluppo
In questa sezione troverete i lavori presentati alle Conferenze mondiali COMSOL. Le presentazioni descrivono ricerche e prodotti innovativi progettati con COMSOL Multiphysics da colleghi di tutto il mondo. I temi delle ricerche presentate abbracciano un'ampia gamma di settori produttivi e aree applicative, in ambito elettrico, meccanico, fluidodinamico e chimico. Lo strumento di Ricerca Rapida vi permetterà di trovare le presentazioni che si riferiscono all'area di vostro interesse.
Visualizza gli articoli presentati alla COMSOL Conference 2020
Simulation of laser pulse-train (25ns, 60 kHz and 3000 pulses) heating Sol-Gel thin film using COMSOL Multiphysics software is investigated. The results show two kinds of temperatures formed on film surface by laser pulse-train heating. One is a single pulse induced transient peak ... Per saperne di più
Academician Yao is an expert in nonlinear optics and THz studies and also a consultant of Chinese government for scientific development. In this talk, he introduces various research progress based on COMSOL Multiphysics analysis of his team, including photonic crystal devices (both ... Per saperne di più
We present the design and performance simulations for a microwave cavity for use in novel compact cold atom atomic clocks. Design goals for such a microwave cavity are a resonance frequency at the Rubidium ground-state transition frequency of 6.835 GHz, combined with a moderate quality ... Per saperne di più
Forced airflow cooling of a Volume Bragg Grating heated by a laser beam was investigated by means of simulation with COMSOL Multiphysics®. In addition to air cooling of unrestricted airflow, a case of airflow directed by limiting glass plates was investigated. A number of temperature ... Per saperne di più
Ultrafast lasers are widely applied in micromachining, material science and physics. In industry, picosecond lasers are becoming more and more established. For pulse lengths shorter than the electron-phonon coupling time, heat affected zones are negligible. Thermally sensitive materials ... Per saperne di più
Laser anemometers based on application of Doppler Effect have been developed and are used in-flight, on aircrafts for measurement of air flow parameters, mainly its speed versus the airplane. The air speed measurements are vital for safe flights. The main basic idea of Doppler techniques ... Per saperne di più
Laser thermal treatment (LTT) systems have applications in IC fabrication for improving low-k dielectrics properties, polymer curing and resist processing. This contribution deals with a transient model of fast scanning and pulsing laser multi-beam system used in semiconductor ... Per saperne di più
It is now a well known that the next generation devices in many fields of the semiconductor industry will be based on 3D architectures. In this framework, low thermal budget annealing technological solutions are required. For many applications, either in the field of sensors, ... Per saperne di più
设计了一种新型的介质激光波荡器。该设计的核心是一个周期性的介质结构,其两侧形成一个真空通道。通过引入两束特定波长的相向传播的平面激光波,在该真空通道内激励并产生一个相位同步的周期性电磁场。主要难点在于如何设计介质结构,使其在激光作用下,能够最大化提供偏转作用的横向电场Ey,同时必须将其他方向的场分量(如纵向场 Ez和加速场 Ex)对电子束的影响降至最低。 利用 COMSOL 求解了在两束相向传播的激光照射下,该周期性结构内部真空通道中的电磁场分布。通过仿真,验证即是否能成功在通道中心产生期望的周期性横向偏转电场,直观地展示电场沿不同方向的变化规律,从而评估波荡器的性能 ... Per saperne di più
本文提出了一种新颖的介电激光加速器(DLA)结构,该结构利用三角梯度介电介质来增强逆切伦科夫效应(Inverse Cherenkov Effect, ICE),从而实现高梯度加速。逆切伦科夫效应是带电粒子从外部激光场中持续获取能量的过程,这在传统切伦科夫效应中是相反的,即粒子发射辐射。通过在介质中精确控制激光束的传播,可以产生一个与粒子速度同步的纵向电场分量,实现连续的净能量增益。为了验证这一概念并分析其性能,我们使用 COMSOL Multiphysics 进行了系统的仿真研究。仿真模型由一个位于自由空间域中的介电结构组成。我们应用散射边界条件(SBC ... Per saperne di più
