2016 journal article

Resonantly enhanced spin-lattice relaxation of Mn2+ ions in diluted magnetic (Zn,Mn)Se/(Zn,Be) Se quantum wells

PHYSICAL REVIEW B, 93(19).

By: J. Debus*, V. Ivanov*, S. Ryabchenko*, D. Yakovlev*, A. Maksimov, Y. Semenov n, D. Braukmann*, J. Rautert* ...

co-author countries: Germany 🇩🇪 Poland 🇵🇱 Russian Federation 🇷🇺 Ukraine 🇺🇦 United States of America 🇺🇸
Source: Web Of Science
Added: August 6, 2018

The dynamics of spin-lattice relaxation in the magnetic ${\mathrm{Mn}}^{2+}$ ion system of (Zn,Mn)Se/(Zn,Be)Se quantum-well structures are studied using optical methods. Pronounced cusps are found in the giant Zeeman shift of the quantum-well exciton photoluminescence at specific magnetic fields below 10 T, when the Mn spin system is heated by photogenerated carriers. The spin-lattice relaxation time of the Mn ions is resonantly accelerated at the cusp magnetic fields. Our theoretical analysis demonstrates that a cusp occurs at a spin-level mixing of single ${\mathrm{Mn}}^{2+}$ ions and a quick-relaxing cluster of nearest-neighbor Mn ions, which can be described as intrinsic cross-relaxation resonance within the Mn spin system.