Research directions

Spin transport in electrically conducting magnetics and nanoheterostructures based on them.

  • Development of a general theoretical approach to describe spin-dependent galvanomagnetic phenomena induced by spatially inhomogeneous external magnetic fields and/or internal fields of quantum exchange origin in metals and semiconductors.
  • Search and characterisation of nonreciprocal transport effects in helicoidal magnetics.
  • Study of spintronic effects in metal- and semiconductor-based nanoheterostructures.
  • Synthesis of nanostructures containing helimagnetic layers and experimental study of their spin-transport properties.

 

Magnetic nanostructures: synthesis techniques, physical properties and applications in spintronics

  • Development of technology for obtaining multilayer nanomaterials of various compositions by magnetron sputtering and molecular beam epitaxy methods.
  • Investigation of structure, magnetic and magnetotransport properties.
  • Preparation and research of magnetosensitive nanomaterials based on nanostructures with giant and tunnelling magnetoresistance effects.
  • Creation of laterally bounded micro-objects of arbitrary shape by optical and electronic lithography methods.
  • Creation of prototypes of magnetic sensors.
  • Development of functional magnetosensitive materials and magnetoelectronics products in the interests of industrial enterprises.