Electromagnetic Sector and Innovations in Inertial Propulsion

In Electromagnetic sector, BLULAB has embarked on a path of innovation through an approach of electromagnetic simulation or electromagnetic modeling. These terms refer to the use of computational tools to solve Maxwell's equations and analyze the behavior of electromagnetic fields in various applications.

This process allows leveraging modern hardware and software to analyze in detail the interaction between magnetic and electric fields. The primary goal is to develop systems based on new innovative propulsion principles, paving the way for revolutionary solutions in the fields of energy and transportation. The use of modern computational tools enables an in-depth examination of the complex interactions between magnetic and electric fields through detailed analysis, study, and simulation execution.

The research group aims to gain a deeper understanding of these phenomena to unlock new discoveries in the field of inertial propulsion. This new approach is based on the idea of using the interaction between magnetic and electric fields to generate thrust without the need for traditional propellants. This approach offers revolutionary potential in the field of space travel, but also in terrestrial applications, such as high-speed transport with maximum safety and sustainable energy.

Thanks to the combination of brute force engineering and interactive simulations between the two energy entities, BLULAB is focused on developing highly efficient and reliable inertial propulsion systems. This approach allows for the exploration of new possibilities in energy and transportation technologies, paving the way for new concepts of innovation and progress to align with the future change needs of industry and society.