Spintronics and Magnetization Dynamics
Spintronics is an evolving arena of nanoscale electronics concerning the recognition and operation of electron spin. Electron spin can be distinguished as a magnetic field having one of two alignments, known as up and down. This provides an additional two binary states to the conventional low and high logic values, which are represented by simple currents. Magnetization dynamics is the branch of solid-state physics that defines the evolution of the magnetization of a material. Atomic-level dynamics includes interactions between magnetization Dynamics, electrons, and phonons.
The word Spintronics is a combination of spin and electronics. That's because this evolving field of applied physics offers a substitute to fundamental electronics – using an electron's spin in its place of its charge to carry data. Spintronics is an arena of electronics concerned with the observation and operation of electron spin in solid-state physics. Trainings of magnetization dynamics have ceaselessly simplified the finding of primarily innovative physical wonders, making firm progress in the advancement of magnetic and spintronics policies. The dynamics can be persuaded and distinguished electrically, offering new functionalities in innovative electronics at the nanoscale. However, its smattering mechanism is still undecided.
- Spin pumping and Spinorbitronics
- Spin orbit torque and skyrmions
- Magnetic semiconductors and organic spintronics
- Spin waves
- Spin caloritronics
- Domain wall dynamics
- Antiferromagnetic spintronics
- Ultrafast magnetization dynamics and terahertz spintronics
- Magnetization damping