Company Filing History:
Years Active: 2003
Title: Mervine Rosen: Innovator in Spintronics
Introduction
Mervine Rosen is a notable inventor based in Clifton, VA (US). He has made significant contributions to the field of spintronics, particularly with his innovative approach to manipulating spin-polarized electrons.
Latest Patents
Mervine Rosen holds 1 patent for his invention titled "Voltage controlled nonlinear spin filter based on paramagnetic ion doped nanocrystal." This invention pertains to a device and a method for injecting spin polarized monochromatic electrons with a specific magnetic moment at room temperature and in the absence of an external magnetic field into a nonmagnetic electrode. The device comprises a ferromagnetic electrode, a nonmagnetic electrode spaced from the ferromagnetic electrode, and a nanocrystal doped with a single active paramagnetic ion disposed in the space between the electrodes. An electrical connection between the electrodes allows for the application of voltage to move the electrons from the ferromagnetic electrode, through the doped nanocrystal, and into the nonmagnetic electrode. The method involves applying voltage between the spaced ferromagnetic and nonmagnetic electrodes, enabling spin polarized electrons to pass from the ferromagnetic electrode through the doped nanocrystal and into the nonmagnetic electrode.
Career Highlights
Mervine Rosen is currently associated with the United States Navy, where he contributes his expertise in the field of spintronics. His work has implications for various applications in electronics and materials science.
Collaborations
Mervine has collaborated with esteemed colleagues such as Alexander L Efros and Emmanuel Rashba, further enhancing the impact of his research in the scientific community.
Conclusion
Mervine Rosen's innovative work in the field of spintronics exemplifies the potential of modern technology to manipulate electron spin for advanced applications. His contributions continue to influence the development of new electronic devices and methods.