Armand Sinanna

Title: Innovator Armand Sinanna: Pioneering Magnetic Field Creation

Introduction: Armand Sinanna, a talented inventor based in Guyancourt, France, specializes in advanced technologies related to superconducting magnets. With one patented innovation to his name, Sinanna is making significant strides in the field of magnetic field generation.

Latest Patents: Sinanna's notable patent is titled "System for Creating a Magnetic Field via a Superconducting Magnet." This invention revolves around a system designed to produce a magnetic field using a superconducting magnet. The innovative system comprises a first branch that includes the superconducting magnet formed by a coil inductance in series with a residual resistance. Additionally, it features a second branch with a protection resistance, a third branch with a power source, and a fourth branch featuring a resistance connected in series with a current-limiting superconducting device. This device switches from a low-resistance state to a high-resistance state when the current exceeds a predetermined breaking point. The parallel structure of the branches enhances the functionality and efficiency of the system.

Career Highlights: Throughout his career, Armand Sinanna has contributed his expertise to prominent organizations, including the Commissariat à l'Énergie Atomique et aux Énergies Alternatives and the Centre National de la Recherche Scientifique. His work in these institutions highlights his dedication to advancing research and technology in the field of superconductivity.

Collaborations: Sinanna has collaborated with esteemed colleagues such as Thierry Schild and André Donati. These collaborations signify the collective expertise that fuels innovation and the development of groundbreaking technologies in their field.

Conclusion: Armand Sinanna's contributions to the domain of superconducting magnets through his patented technology reflect his innovative spirit and commitment to scientific advancement. His work not only exemplifies the potential of superconducting systems but also paves the way for future developments in magnetic field applications.