LORENTZ - 带电粒子轨迹求解器
INTEGRATED的LORENTZTM CAE程序套件提供了为2D/RS和3D带电粒子轨迹分析定制的复杂模拟和设计工具。LORENTZTM的多种应用包括研究粒子在陷阱(如Penning陷阱)中的运动,或粒子通过弯曲磁体和多聚焦磁体等光学组件的路径,或双网格离子枪等光速的行为。
LORENTZTM可与INTEGRATED成熟的电场和磁场求解器结合使用。这些求解器在电机设计、天线和高压传输线等各种应用中的数十年使用证明了它们的可靠性。根据随附的场求解器,有多种LORENTZTM程序可用于涉及电(E)、磁(M)或2D和3D组合场分析(EM)的应用,称为LORENTZ-2ETM、LORENTZ-2MTM、LORENTZ-2EMTM、LORENTZ-3ETM、LORENTZ-3MTM和LORENTZ-3EMTM。对于高频选项,请选择LORENTZ-HFTM。
INTEGRATED的参数化和批处理实用程序可用于在LORENTZTM模型上运行自动变化,用于设计优化或公差测试等目的。
了解LORENTZTM求解器方法和我们的光束分析物理选项。
由于我们程序的并行化(包含在我们的软件中,无需额外费用),对于需要光束分析和粒子轨迹软件的设计人员来说,解决方案速度无疑是一个主要优势。
特征;
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适用于各种应用的2D/RS和3D带电粒子轨迹场求解器
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3D封装中的光学(光束)轴为分析光束提供方便的参考
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准瞬态模式在不同时间为任意时间依赖性重建场,这比执行瞬态解决方案要快得多
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我们的软件包包括:
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求解器的选择:为确保您对解决方案有信心并进行独立验证,BEM和FEM方法都包含在同一个软件包中,以满足您的特定应用需求。并非每个求解器都适合每个应用程序,没有“一刀切”。
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优化工具的选择:参数分析适用于那些需要快速方便优化且学习曲线短的人。API和脚本为高等用户提供了更多功能。这两种工具都在同一个包中。
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内置材料库:自定义和创建您自己的库,以便方便访问您使用的材料。
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与MATLAB®集成:用户的MATLAB代码可以包含对INTEGRATED API的函数调用,以构建几何、分配物理参数、求解和获得结果。
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并行化:在64位计算机上使用时,可以充分利用可用RAM,从而显著提高求解器速度和后处理速度。
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直观的界面,可根据用户偏好方便定制(整体外观、工具栏、求解器、背景、默认值等)。
应用:
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电子枪
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离子枪
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离子注入机
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纳米管场发射器
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溅射源
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X-ray
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离子推进
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光斑尺寸
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转向磁铁
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电子显微镜
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离子迁移谱
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离子阱
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离子质谱仪
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飞行时间
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导流板
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微通道板
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乘积
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光电倍增管
系统要求:
64位操作系统
Microsoft® Windows 10或更高版本
安装需要大约110MB的磁盘空间
二维程序:
至少需要4GB的RAM
尽管该软件在单处理器机器上运行,但在多处理器系统上运行它将使软件能够利用并行资源以并行方式求解
【英文介绍】
INTEGRATED's LORENTZTM suite of CAE programs provide sophisticated simulation and design tools customized for charged particle trajectory analysis in 2D/RS and 3D. The diverse applications of LORENTZTM include studying the motion of particles in traps such as a Penning trap, or the paths of particles through optical components such as bending magnet and multiple focusing magnets, or the behavior of beams such as the dual grid ion gun.
LORENTZTM is available in combination with INTEGRATED's well-established electric and magnetic field solvers. These solvers have proven their reliability over decades of use in applications as diverse as motor design, antennas, and high voltage transmission lines. Depending on the accompanying field solvers, several varieties of LORENTZTM programs are available for applications involving electric(E), magnetic(M) or combined field analysis (EM) in 2D and 3D known as LORENTZ-2ETM, LORENTZ-2MTM, LORENTZ-2EMTM, LORENTZ-3ETM, LORENTZ-3MTMand LORENTZ-3EMTM. For the high frequency option, please choose LORENTZ-HFTM.
INTEGRATED's Parametric and batch utilities may be used to run automatic variations on the LORENTZTM model for purposes such as design optimization or tolerance testing.
Learn about LORENTZTM Solver Methods and our Specialized Beam Analysis Physics Options.
Thanks to the parallelization of our programs (included in our packages at no extra cost) the solution speed is certainly a major benefit for designers requiring beam analysis and particle trajectory software.
Features
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2D/RS and 3D charged particle trajectory field solver for a diverse range of applications.
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Optical (beam) axis in the 3D package to provide a convenient reference for analyzing a beam.
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Quasi-transient mode that rebuilds the field at different times for arbitrary time dependencies, which is much faster than doing a full transient solution.
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At no extra cost, our software packages include:
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Choice of solvers: To ensure you have confidence in the solution and for independent verification, both BEM and FEM methods are included in the same software package to suit your specific application needs. Not every solver fits every application, no “one size fits all”.
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Choice of optimization tools: Parametric Analysis for those who need fast and easy optimization with a short learning curve. API and Scripting give more power to advanced users. Both tools are available in the same package.
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Built-in material libraries: Customize and create your own library for easy access to the materials you use.
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Integration with MATLAB®: Users' MATLAB code can include function calls to the INTEGRATED API to build geometry, assign physical parameters, solve, and obtain results.
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Intuitive interface that can be easily customized according to user preferences (overall appearance, toolbars, solvers, backgrounds, defaults, etc.)
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