2015
DOI: 10.1038/srep07720
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Pressure control of magnetic clusters in strongly inhomogeneous ferromagnetic chalcopyrites

Abstract: Room-temperature ferromagnetism in Mn-doped chalcopyrites is a desire aspect when applying those materials to spin electronics. However, dominance of high Curie-temperatures due to cluster formation or inhomogeneities limited their consideration. Here we report how an external perturbation such as applied hydrostatic pressure in CdGeP2:Mn induces a two serial magnetic transitions from ferromagnet to non-magnet state at room temperature. This effect is related to the unconventional properties of created MnP mag… Show more

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Cited by 14 publications
(6 citation statements)
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“…The high compressibility of lattice and hysteresis 4 in k-(BEDT-TTF) 2 Cu[N(CN) 2 ]Cl are in favour of this. Our findings are thought to be useful, for example, in interpreting the intriguing coincidence of the electrical, structure and magnetic transitions in the Mn-doped chalcopyrites 31 and the Dirac semimetal 32 .…”
Section: Discussionmentioning
confidence: 90%
“…The high compressibility of lattice and hysteresis 4 in k-(BEDT-TTF) 2 Cu[N(CN) 2 ]Cl are in favour of this. Our findings are thought to be useful, for example, in interpreting the intriguing coincidence of the electrical, structure and magnetic transitions in the Mn-doped chalcopyrites 31 and the Dirac semimetal 32 .…”
Section: Discussionmentioning
confidence: 90%
“…It is established that structural transformation in a chalcopyrite lattice is responsible for both types of magnetization hysteresis and causes a remarkable structure-driven MR effect where magnetotransport features depend on the magnetic nature of the compositions. Trying to explain an unusual behavior of hysteresis, we believe that this effect can possibly be attributed to strong interacting clusters and their volume properties [12] in a new high-pressure phase. A deeper understanding of the interplay between the host lattice distortion and MnAs clusters remains to be elucidated in future.…”
Section: Resultsmentioning
confidence: 99%
“…The family of Mn-doped II-IV-V 2 semiconductors have attracted considerable attention both experimentally [5][6][7] and theoretically [8,9] due to room-temperature (RT) ferromagnetism which holds potential in the modern concept of spin devices. Although the scientific interest devoted to these materials is smaller than that of III-V diluted magnetic semiconductors (DMS) [10], interest in these compounds has been resurrected due to the unusual properties of their magnetic inhomogeneities such as recent demonstrations of metamagnetic-like behavior under pressure, as well as the path to pressure controlled response of magnetic clusters at RT [11,12]. Mn-doped ZnGeAs 2 is the most representative due to its high Curie temperature T C ≈ 367 K [13].…”
Section: Introductionmentioning
confidence: 99%
“…In the spin or memory devices, reversing magnetization through powerful, fast, and tunable techniques is very important in writing process. , This control and tuning of magnetization of the system can be achieved by switching one magnetic state to another through various external sources like magnetic field, laser field, , temperature, pressure, , and spin-polarized current. However, these approaches for magnetism manipulations are not efficient as they act nonlocally, which can affect the neighboring units. Thus, the search for alternative and efficient techniques through which magnetism can be controlled and manipulated at nanoscale brought significant attention toward the application of an external electric field (EEF).…”
Section: Introductionmentioning
confidence: 99%