How easy is it to use Quantemol software?
How can I order a demo-version of Quantemol-software?
What is the difference between single work station license and site license?
How does it help to predict charging damage?
What process pressure range can be modeled?
What is the difference between single workstation licence, site licence and research group licence?
What is the biggest mesh size possible to model in Quantemol-VT?
How easy is it to use Quantemol software?
With every new version of the Quantemol software we continue to improve the interface and make it even more use friendly. Very simple inputs are used for all applications and outputs are usually presented in a convenient text or graphical format. We have the special option of manual tuning of the program for advanced users.
We can organise a web-demonstration of Quantemol applications during which you can find out more about Quantemol and see how the programs actually work. After you buy a license we will arrange an introductory training session for users. We are always in touch with clients and ready to answer any kinds of questions.
How can I order a demo-version of Quantemol-software?
To order a web demonstration please e-mail sales@quantemol.com or give us a call on +44 (0)203 549 5841.
What is the difference between single work station license and site license?
- “Single workstation licence”: Licence allowing the use of the software modules on a single computer which must be hosted by a single operating system installation. It may include multiple CPU.
- “Site licence”: Licence allowing install of the software on unlimited numbers of computers owned by the customer on the customer’s site and run simultaneously.
Does the model take into account differences due to use of different rf frequencies for plasma generation? How about use of Faraday shields?
Yes the model will treat the differences between rf frequencies and Faraday shields can be included.
How does it help to predict charging damage?
Ion and electron fluxes onto surfaces can be predicted. This combined with an understanding of surface conductivity will give a usable analysis of possible charge damage.
What kind of output do you get? Can you predict deposition rate, thickness and film property uniformity (e.g. index of refraction & optical loss), film composition, control of particulate contamination?
Outputs include 2D visualisations of all simulated parameters (such as species temperatures and concentrations, electromagnetic fields etc). Outputs also include surface fluxes and surface site fractions for any simulated species. Output can also include deposition of etch rates. Outputs such as thickness and film properties would need to be extrapolated from calculation results.
Typically, how long does it take to build a new reactor configuration? What skills are required, how user-friendly is it?
We have a user friendly graphical interface that allows the user to paint a 2D representation of the tool. Given an existing simulated chemistry and a description of the physics being modeled a new or adapted geometry can be created in say 10 mins.
What process pressure range can be modeled?
Quantemol-VT can handle pressures up to about 10 Torr and as low as about 5 mTorr.
What is the difference between single workstation licence, site licence and research group licence?
Single workstation software licence allows only one user at a time to use the software. In principle software with this licence can be installed on a single computer and allow different people connect to it and use software at different times.
Site licence is a licence allowing use the software by multiple numbers of users in the site, simultaneously, on multiple computers.
A research group licence allows any member of the group holding the licence to use the program.
What is the biggest mesh size possible to model in Quantemol-VT?
Quantemol-VT itself does not limit the mesh size, it is however restricted by the computer’s memory. In the design phase, you are limited to 132 columns, but the mesh can be expanded later by an arbitrary integer