Monte Carlo Simulation of Ionizing Radiation
There are plenty of free MC code packages, why do you still need us?
Why You Still Need Us
People are saying that MC simulation is simple, it’s just about counting numbers. Yes, MC simulation is just about counting numbers, it’s very simple, so simple that it’s not ready for your engineering needs yet. It demands sophisticated users.
3D modeling of the device;
MC simulation of energetic particle using Geant4 package;
TCAD simulation of carrier transport using Genius;
An improved subset-simulation algorithm to reduce the computation cost.
Accuracy
If your MC simulation isn’t accurate, don’t question the MC tool, question the way you are using it. What does it need to simulate accurately?
An accurate physics and geometry modeling
Appropriate variance reduction techniques
Accessibility
For most free MC program packages, there are almost no good graphical user interfaces. One may need sufficient software skills to use these free packages.
Dedicated to Your Needs
Most of the free MC simulation program packages are generally purposed. They can do everything, thus they can’t do anything for you. Because they have no understandings of your needs.
Combination with Other Physical Processes
Your engineering tasks may need not only radiation simulation, but something else, like charge carriers simulation, for example. Thus MC simulation isn’t enough for your tasks. You need other tools.
What You can Do with Cogenda
Dedicated Software
For your own engineering needs, Cogenda can write dedicated software for you.
Combination with other computation methods for multi-physics problems;
Parallel computation;
Graphical user interface for easy use;
Post-script interface for efficiency;
Supporting multiple platforms.
Develop Your Own Software
If you want to develop your own simulation software, you need some basic physics and mathmetics function libraries. Cogenda has professional experience on these fields.
Solving Problems of Radiation
If what you want is a director answer, just contact us.
Examples
Example 1: SEE Fully Physical Simulation (Main Article)
Fully physical simulation of SEE is a combination of energetic particle transport simulation and charge carrier transport simulation. What we do includes:
- 3D modeling of the device;
- MC simulation of energetic particle using Geant4 package;
- TCAD simulation of carrier transport using Genius;
- An improved subset-simulation algorithm to reduce the computation cost
Example 2: Semiconductor Detector for Ionizing Radiation (Application Example for Download)
Similar to SEE simulation mentioned above, the simulation of semiconductor detector is also the combination of MC energetic particle simulation and TCAD charge carrier simulation. The work flow of the solution is shown as following figure:
Example 3: Dielectric Charging
When energetic electrons penetrate in dielectric material, the material will be charged, resulting in electric field inside it. The simulation work flow is shown as following figure: