超短脉冲
飞秒
时间分辨率
光谱学
光学
女性化学
图像分辨率
显微镜
物理
材料科学
激发
光电子学
相干光谱学
纳米
衍射
超快激光光谱学
量子
纳米技术
作者
Branden L. Esses,Daniel Sandner,Patrick A. McKee,Roland Wilcken,Jun Nishida,Richard Puro,Markus B. Raschke
标识
DOI:10.1038/s43586-026-00474-7
摘要
Ultrafast pump–probe nano-imaging combines scanning probe-based optical near-field microscopy with ultrafast spectroscopy to enable imaging with deep sub-wavelength spatial resolution, femtosecond temporal resolution and simultaneous spectral resolution. Ultrafast nano-imaging has gained increased attention for its ability to provide far-from-equilibrium excitation and excited-state contrast. With coherent and nonlinear probing, coupled electron, spin and lattice dynamics on elementary timescale and length scale can be resolved. Through nano-movies, ultrafast nano-imaging visualizes correlated quantum dynamics underlying the properties of solid-state materials, semiconductors, molecular electronic, photonic, photovoltaic and other functional materials. With nanometre spatial resolution, this method probes elementary dynamic processes across multiple length scales that are otherwise obscured in conventional ultrafast spectroscopy in which heterogeneities are spatially averaged. This Primer describes the theoretical background and experimental implementation of ultrafast nano-imaging; signal interpretation and modelling; representative examples and a perspective for the future development of the field. Ultrafast near-field microscopy unites femtosecond optical spectroscopy with nanometre spatial resolution to image non-equilibrium material dynamics beyond the diffraction limit. This Primer outlines theory, instrumentation, signal interpretation and representative applications, providing a practical foundation for generating and analysing ultrafast nano-movies of quantum materials.
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