Abstract
The speed of magnetization reversal is a key feature in magnetic data storage. Magnetic fields from intense THz pulses have been recently shown to induce small magnetization dynamics in a cobalt thin film on the sub-picosecond time scale. Here, we show that at higher field intensities, the THz electric field starts playing a role, strongly changing the dielectric properties of the cobalt thin film. Both the electronic and magnetic responses are found to occur simultaneously, with the electric field response persistent on a time scale orders of magnitude longer than the THz stimulus.
Highlights
The speed of magnetization reversal is a key feature in magnetic data storage
The speed of magnetization reversal is a key feature for ultrafast magnetic storage technology [1, 2]
An alternative approach towards precessional magnetic switching on the picosecond timescale relies on the magnetic field component of a strongly asymmetric single cycle terahertz (THz) pulse [7,8,9,10,11,12,13,14,15] phase-locked to the spins
Summary
The speed of magnetization reversal is a key feature in magnetic data storage. Magnetic fields from. Any further distribution of intense THz pulses have been recently shown to induce small magnetization dynamics in a cobalt thin this work must maintain attribution to the film on the sub-picosecond time scale. Electronic and magnetic responses are found to occur simultaneously, with the electric field response persistent on a time scale orders of magnitude longer than the THz stimulus.
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