Generating PDF document
Please, wait a moment
Too much time loading?
Reload the page and try again.
Please, wait a moment
Too much time loading?
Reload the page and try again.
Description
Our specialty is the theoretical study through computer modelling of the physical phenomena involved in the material processing, specially the ones related with the manufacturing of nanometric electronic devices on semiconductor materials.Other information
Number of researchers:
5
Development status:
In research and development phase
Intellectual Property Rights:
No hay derechos intelectuales implicados
Differentiation in the market:
There are no other suppliers
Applicability of technology:
Yes
Companies and markets:
Increasingly, the industry demands simulation and analysis tools, based on the understanding of the physical mechanisms involved, which give a guidance on how to improve the processes. The multiscale simulation scheme that we suggest, supported by fundamental studies, can provide keys for the process optimization much more effectively than the phenomenology models based on the simple empirical adjustment of parameters. An evidence of the interest that our work arouses are the active interactions we have with companies like NXP and Varian. A technological transfer or contracts with such companies is expected. The models we develop in our research could be incorporated into commercial atomistic simulators, like the case of Sentaurus Atomistic of the company Synopsys Inc., TCAD tool for the development of the integrated circuits technology.
Advantages:
The studies we carry out are relevant, both scientific and technologically. In the case of silicon, material which with we have more experience, the determination of the physical basis and the associated atomic mechanisms to the technological processes for the manufacturing of integrated circuits meant a breakthrough in the fundamental knowledge of the creation of the damaged by radiation, and of the interactions between doping and defects.
Additional Information:
The members of the group Materials multiscale modelling are constituted as Established Research Unit of the Regional government of Castilla y León.
UNESCO Code:
2211 - Solid state physics
Other members:
Luis Alberto Marqués Cuesta
María Aboy Cebrián
See more
Pedro López Martín
Iván Santos Tejido
Characterization of radioelectric environments. Regular spreading models have proved themselves effective to model problems where the wavelength is too long or short compared to the characteristic physical dimensions involved in the problem, such as ... Read more >
The system modelling and simulation is very useful for many knowledge areas. Being able to simulate mathematically the real behavior of a system brings many advantages in its design and control at multiple levels, for example, in security and economi... Read more >
Device modelling for optoelectrical integration, chains of coupled microring, new materials, quick and slow light.... Read more >
Characterization by original GIR (official research group in its Spanish acronym) techniques of the so-called "high-permittivity dielectric materials." Some of the works conducted within this research line are the following: “Caracterización eléc... Read more >
