Litcius/Paper detail

Making a case for femto-phono-magnetism with FePt

S. Sharma, S. Shallcross, Peter Elliott, J. K. Dewhurst

2022Science Advances20 citationsDOIOpen Access PDF

Abstract

In the field of femtomagnetism, magnetic matter is controlled by ultrafast laser pulses; here, we show that coupling phonon excitations of the nuclei to spin and charge leads to femto-phono-magnetism, a powerful route to control magnetic order at ultrafast times. With state-of-the-art theoretical simulations of coupled spin, charge, and lattice dynamics, we identify strong nonadiabatic spin-phonon coupled modes that dominate early time spin dynamics. Activating these phonon modes that we show leads to an additional (up to 40% extra) loss of moment in iron-platinum occurring within 40 femtoseconds of the pump laser pulse. Underpinning this enhanced ultrafast loss of spin moment, we identify a physical mechanism in which minority spin current drives an enhanced intersite minority charge transfer, in turn promoting increased on-site spin flips. Our finding demonstrates that the nuclear system, often assumed to play the role of an energy and angular momentum sink, when selectively preexcited, can play a profound role in controlling femtosecond spin dynamics in materials.

Topics & Concepts

MagnetismFemtosecondUltrashort pulseMagnetic momentPhononMagnetization dynamicsCondensed matter physicsAngular momentumPhysicsSpin engineeringSpin (aerodynamics)LaserMagnetizationSpin polarizationMagnetic fieldElectronQuantum mechanicsThermodynamicsMagnetic properties of thin filmsIon-surface interactions and analysisAdvanced Materials Characterization Techniques