Oleg E. Parfenov scite author profile

The appeal of ultra-compact spintronics drives intense research on magnetism in low-dimensional materials. Recent years have witnessed remarkable progress in engineering two-dimensional (2D) magnetism via defects, edges, adatoms, and magnetic proximity. However, intrinsic 2D ferromagnetism remained elusive until recent discovery of out-of-plane magneto-optical response in Cr-based layers, stimulating the search for 2D magnets with tunable and diverse properties. Here we employ a bottom-up approach to produce layered structures of silicene (a Si counterpart of graphene) functionalized by rare-earth atoms, ranging from the bulk down to one monolayer. We track the evolution from the antiferromagnetism of the bulk to intrinsic 2D in-plane ferromagnetism of ultrathin layers, with its characteristic dependence of the transition temperature on low magnetic fields. The emerging ferromagnetism manifests itself in the electron transport. The discovery of a class of robust 2D magnets, compatible with the mature Si technology, is instrumental for engineering new devices and understanding spin phenomena.

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Lanthanide f⁷ metalloxenes – a class of intrinsic 2D ferromagnets

Tokmachev

et al. 2019

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Direct observation of the magnetic polaron

et al. 2009

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Semiconductor electronics has so far been based on the transport of charge carriers while storage of information has mainly relied upon the collective interactions of spins. A new discipline known as spintronics proposes to exploit the strong mutual influence of magnetic and electrical properties in magnetic semiconductors, which promise new types of devices and computer technologies. The mechanism for such phenomena involves the concept of magnetic polarons-microscopic clouds of magnetization composed of charge carriers and neighboring magnetic ions-which determine most of the electrical, magnetic, and optical properties of the material. In spite of the importance of this quasiparticle, its observation remains a formidable challenge. Here we report that, using the positive muon as both a donor center and a local magnetic probe, we have been able to generate and detect the magnetic polaron and determine its size and magnetic moment in the magnetic semiconductor EuS.

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2D ferromagnetism in europium/graphene bilayers

et al. 2020

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Spin Polarons in the Correlated Metallic PyrochloreCd2Re2O7

et al. 2010

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Muon spin rotation spectroscopy reveals localized electron states in the geometrically frustrated metallic pyrochlore Cd2Re2O7 at temperatures from 2 to 300 K in transverse magnetic fields up to 7 T. Two distinctive types of localized states, with characteristic radii of about 0.5 and 0.15 nm, are detected at high and low temperature, respectively. These states may be spin polarons, formed due to strong exchange interaction between itinerant electrons and the magnetic 5d electrons of Re ions, which may determine the peculiar electronic and magnetic properties of Cd2Re2O7.

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Oleg E. Parfenov

Emerging two-dimensional ferromagnetism in silicene materials

Lanthanide f⁷ metalloxenes – a class of intrinsic 2D ferromagnets

Direct observation of the magnetic polaron

2D ferromagnetism in europium/graphene bilayers

Spin Polarons in the Correlated Metallic PyrochloreCd2Re2O7

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Oleg E. Parfenov

Emerging two-dimensional ferromagnetism in silicene materials

Lanthanide f7 metalloxenes – a class of intrinsic 2D ferromagnets

Direct observation of the magnetic polaron

2D ferromagnetism in europium/graphene bilayers

Spin Polarons in the Correlated Metallic PyrochloreCd2Re2O7

Contact Info

Product

Resources

About

Lanthanide f⁷ metalloxenes – a class of intrinsic 2D ferromagnets