Consultez les proceedings de la Conference COMSOL 2024
Metamaterials are a new class of artificial materials, which possess various unusual properties. One of these properties is a negative index of refraction produced by setting both the dielectric permittivity ε and the magnetic permeability μ of the material less than zero. Unique ... En savoir plus
COMSOL Multiphysics® can play a crucial role in jumpstarting undergraduate research programs in physics and engineering at colleges with limited financial support and small faculty size. The engineering physics program at Ramapo College of NJ has 48 majors and 4 full time faculty with ... En savoir plus
电磁辐射对燃油危害是加油站、炼油厂、油气基地等大型设施禁用手机和其他无线通讯设备的重要原因。不同于静电对燃油蒸气的危害,本文的研究重点在于分析不同频率下的射频放电击穿特性。基于射频等离子体鞘层模型,通过多物理场仿真,分析了12M~300MHz频率下的氩气射频放电过程。仿真结果表明,当激励频率大于雪崩击穿临界频率时,两侧极板附近会形成随激励周期变化的鞘层区,中心区域为准电中性的等离子体区。同时,当激励频率远小于等离子体频率时,鞘层会促进极板附近的γ电离过程;随着频率增大,鞘层特性会逐渐退化,而中心区域的α电离过程会增强。此外,放电特性曲线表明,频率越高,板间放电电压越小 ... En savoir plus
线板电极结构是电晕放电装置中一种常见的结构,但是其电晕放电的发展过程却一直不清楚。本文利用comsol中的等离子化学模块,对大气压条件下空气介质中线板电极的负电晕放电发展过程进行了仿真研究。在仿真模型中,高压电极为线电极,板电极为地电极,模型包含了12中粒子之间的26种反应,其涵盖了典型的弹性碰撞,碰撞电离,电荷转移,复合反应,附和与解离反应。最终的仿真结果显示,在电晕放电发展初期存在一个脉动过程,等离子体以脉冲的形式向地电极扩展。当电晕处于稳态时,在高压电极处是以O4+为主的阳离子,在远离高压电极处的地方以O2-及O-等阴离子为主 ... En savoir plus
High intensity discharge lamps can experience flickering and even destruction, when operated at high frequency alternating current. The cause of these problems has been identified as acoustic resonances inside the lamp’s are tube. Here, a finite element approach for the calculation ... En savoir plus
Electron beam has a wide range of applications in the material processing and joining techniques. Apart from that, it has also been utilized to simulate steady as well as transient fusion reactor relevant heat loads. Transient heat load events spontaneously occur in the fusion reactor. ... En savoir plus
Recently, the researchers usually use the hydrodynamic Drude model (HDM) to investigate the nonlocal optical response of metallic nanostructure. The advantage of the HDM is easy to implement numerical calculation for larger and more complex-shaped nanoplasmonic structures. For the HDM, ... En savoir plus
The search for energy saving is nowadays mandatory because of the constant growth of CO2 emissions caused by an inefficient energy management. Thermal Energy Storage (TES) has an important role in designing of energy efficient systems, including solar energy storage (daily or seasonal) ... En savoir plus
Murphy and Good general theory for electron emission from metal surfaces was used to predict the field-emission capabilities of ideal arrays of vertically aligned carbon nanotubes (VACNT). The Nottingham effect was taken into account in order to explain experimental observation of a ... En savoir plus
A portable device that can identify protein and peptides real time in complex biological systems such as human bodily fluids reliably and accurately is in high demand to properly diagnose and treat medical conditions. Lynntech has developed an innovative Polydimethylsiloxane (PDMS) based ... En savoir plus