posted on 2024-11-30, 04:13authored byZhongqiang Hu, Zhiping He, Qiuyuan Wang, Chung-Tao Chou, Justin T. Hou, Luqiao Liu
Magnetic sensing beyond the linear
regime could broaden the frequency
range of detectable magnetic fields, which is crucial to various microwave
and quantum applications. Recently, nonlinear interactions in diamond
nitrogen-vacancy (NV) centers are proposed to realize magnetic sensing
across arbitrary frequencies. In this work, we enhanced these capabilities
by exploiting the nonlinear spin dynamics in hybrid systems of NV
centers and ferri- or ferromagnetic (FM) thin films. We studied the
frequency mixing effect in the hybrid systems and demonstrated that
the introduction of FM films not only amplifies the intensity of nonlinear
resonance signals that are intrinsic to NV spins but also enables
novel frequency mixing through parametric pumping and nonlinear magnon
scattering effects. The discovery and understanding of the magnetic
nonlinearities in hybrid NV/magnon systems position them as a prime
candidate for magnetic sensing with a broad frequency range and high
tunability, particularly meaningful for nanoscale, dynamical, and
noninvasive materials characterization.