210 likes | 413 Views
Magnetization switching without charge or spin currents. J. Stöhr Sara Gamble and H. C. Siegmann, SLAC, Stanford A. Kashuba Bogolyubov Institute for Theoretical Physics, Kiev, Ukraine. Switching with charge or spin currents.
E N D
Magnetization switching without charge or spin currents J. Stöhr Sara Gamble andH. C. Siegmann, SLAC, Stanford A. Kashuba Bogolyubov Institute for Theoretical Physics, Kiev, Ukraine
Switching with charge or spin currents • Conventional H field pulses created by current flow through wires • Time and amplitude limited by • inductance laws and Joule heat in wires • Switching with spin polarized currents has same problem
Today’s Switching Process 190 years of “Oersted switching”…. switching time limited by field strength H and spin-lattice relaxation time ~100 ps
Fastest H (B)Field Switching = Ballistic Switching Patent issued December 21, 2000: R. Allenspach, Ch. Back and H. C. Siegmann M Relaxation into easy axis is governed by spin-lattice relaxation - but process is deterministic ! Precise timing for a=180oreduces time end of field pulse
Beyond direct switching by magnetic fields ---- how about electric fields ? Stöhr et al., Appl. Phys. Lett. 94, 072504 (2009)
Magnetic Field is a time-odd “axial vector” Magnetic field has same symmetry properties as magnetization - can switch magnetization - Electric Field is a time-even “polar vector” Electric field cannot directly switch magnetization
E-fields can produce magnetic anisotropy axis magnetocrystalline anisotropy caused by anisotropic atomic positions “bonding fields” distort valence charge, create axis Ambiguity remains with respect to direction of M
The concept of the magnetic anisotropy field creates “direction” 2KE cos HE = M after some time ……~ 100 ps M realigns along HE but…rotation ofMlimited to < 90o
Cannot switch through rotation of M into HE Cannot rotate past 90o – cannot “switch”
Use Concept of Ballistic Switching – pulsed fields ballistic switching with H field pulse of lengtht < 100 ps This concept works with E fields, too !
Comparison of Hand Efield ballistic switching Imagine that E field can create HE fast
So what does it take to switch with E-field ? • Strong enough E field to induce dominant anisotropy axis and field HE • Efield should be at angle ~ 45o to original easy axis • Field pulse has to be fast ( t < 100 ps) before M aligns with HE Process is completely determined by “write pulse” length t not by precession and damping time which may be slower
Two potential methods • Create new transient anisostropy axis in suitable multiferroic • by E field pulse – optimum angle 45o • Use strong E field pulse to distort atomic valence charge • in any material E second order Stark effect ~ E2 Field strength needs to be > 1 Volt / nm comparable to valence potential
Magnetic writing with SLAC Linac beam thin Co film on Si wafer premagnetized 100 fs - 5 ps 1nC or 1010 electrons J. StöhrandH. C. Siegmann Magnetism: From Fundamentals to Nanoscale Dynamics Springer Series in Solid State Sciences 152
Experiment with ultrastrong fields electric field strength is up to 20 GV / m (2 V / Angstrom)
Magnetic pattern is severely distorted • --- does not follow circular B-field symmetry Calculation of pattern with Landau-Lifshitz-Gilbert theory known magnetic properties of film, known length, strength, radial dependence of fields B-field only B-field and E-field
Magneto-electronic anisotropy is strong ~ E2 352 or about 1000 times stronger than with previous 5 ps pulses B-field torque E-field torque
Use photon pulse instead of e-beam pulse B field cancels, E2 field does not cancel E field only switching should be possible with THz photons