Tuneable electron–magnon coupling of ferromagnetic surface states in PdCoO2

被引:0
作者
F. Mazzola
C. -M. Yim
V. Sunko
S. Khim
P. Kushwaha
O. J. Clark
L. Bawden
I. Marković
D. Chakraborti
T. K. Kim
M. Hoesch
A. P. Mackenzie
P. Wahl
P. D. C. King
机构
[1] University of St Andrews,SUPA, School of Physics and Astronomy
[2] Max Planck Institute for Chemical Physics of Solids,Diamond Light Source
[3] CSIR-National Physical Laboratory,DESY Photon Science
[4] Harwell Campus,Tsung Dao Lee Institute and School of Physics and Astronomy
[5] Deutsches Elektronen-Synchrotron,undefined
[6] Shanghai Jiao Tong University,undefined
来源
npj Quantum Materials | / 7卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Controlling spin wave excitations in magnetic materials underpins the burgeoning field of magnonics. Yet, little is known about how magnons interact with the conduction electrons of itinerant magnets, or how this interplay can be controlled. Via a surface-sensitive spectroscopic approach, we demonstrate a strong electron–magnon coupling at the Pd-terminated surface of the delafossite oxide PdCoO2, where a polar surface charge mediates a Stoner transition to itinerant surface ferromagnetism. We show how the coupling is enhanced sevenfold with increasing surface disorder, and concomitant charge carrier doping, becoming sufficiently strong to drive the system into a polaronic regime, accompanied by a significant quasiparticle mass enhancement. Our study thus sheds light on electron–magnon interactions in solid-state materials, and the ways in which these can be controlled.
引用
收藏
相关论文
共 55 条
  • [1] Huang B(2020)Emergent phenomena and proximity effects in two-dimensional magnets and heterostructures Nat. Mater. 19 1276-1289
  • [2] Gibertini M(2019)Magnetic 2d materials and heterostructures Nat. Nanotechnol. 14 408-419
  • [3] Koperski M(2017)The properties of ultrapure delafossite metals Rep. Prog. Phys. 80 032501-21721
  • [4] Morpurgo AF(2009)Fermi surface and surface electronic structure of delafossite PdCoO Phys. Rev. B 80 035116-310
  • [5] Novoselov KS(2009)Anisotropic electric conductivity of delafossite PdCoO Phys. Rev. Lett. 102 256404-302
  • [6] Mackenzie AP(2020) studied by angle-resolved photoemission spectroscopy Phys. Rev. Res. 2 013282-16501
  • [7] Kim K(2020)Anomalous hall effect at the spontaneously electron-doped polar surface of PdCoO Phys. Rev. X 10 021018-6015
  • [8] Choi HC(2017) ultrathin films Phys. Chem. Chem. Phys. 19 21714-248
  • [9] Min BI(2013)Controlled introduction of defects to delafossite metals by electron irradiation J. Phys. Chem. Solids 74 305-839
  • [10] Noh H-J(2007)The role of phonon-phonon and electron–phonon scattering in thermal transport in PdCoO J. Phys. Soc. Jpn. 76 104701-3977
123456