Pulse Duration Dependence of Novel Metal Alloying on Fe/Cr/Ni Thin Films by Ultra-Short Pulsed Laser Irradiation

Kawano, Taiyoh, Furuichi, Taketo, Tsuchiya, Eibon, Yamaguchi, Makoto, Okada, Tatsuya, Kobayashi, Yohei, Tomita, Takuro

We examined the possibility of suppressing elemental segregation of high-entropy alloys (HEAs) using femtosecond laser irradiation. Thin films of iron (Fe), chromium (Cr), and nickel (Ni) were deposited on the surfaces of n-type SiC and p-type GaN substrates. The thicknesses of the Fe, Cr, and Ni films were 12, 7, and 11 nm, respectively. Laser irradiation was performed from the substrate side by focusing on the interface between the Fe film and substrate. Scanning transmission electron microscopy (STEM) bright-field images superimposed on the elemental maps of Fe, Cr, and Ni showed a more homogenous mixing of Fe, Cr, and Ni in the femtosecond-laser-modified region than in the picosecond-laser-modified region. In particular, the Ni distribution showed a significant improvement in homogeneity. In other words, the Ni mixture was more homogeneous in the femtosecond laser-modified region than in the picosecond laser-modified region. Although the duration of the picosecond laser pulse was sufficiently long for atomic diffusion, segregation still occurred during the cooling process following laser irradiation.

Pulse Duration Dependence of Novel Metal Alloying on Fe/Cr/Ni Thin Films by Ultra-Short Pulsed Laser Irradiation

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Pulse Duration Dependence of Novel Metal Alloying on Fe/Cr/Ni Thin Films by Ultra-Short Pulsed Laser Irradiation

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