| 摘要 |
System(s) and method(s) to probe electromagnetic fields at the surface of a solid-state material are provided. The technique combines ultrafast (e.g., less than 10 fs) optical excitation and electron microscopy to generate electronic excitations and image the ensuing electromagnetic fields with nanometer-scale spatial resolution and femtosecond time-scale resolution. In addition, time-of-flight energy analysis facilitates imaging of relaxation a generated electronic excitation. The dynamics of the electromagnetic fields can be probed interferometrically through generation of multi-frame imaging, with inter-frame frequency of the order of a few hundreds of attoseconds, of interference patterns among an electric field associated with an excitation in a sample or device and the electromagnetic field of a probe pulse coherent with an excitation pulse. Quality assurance of nanoscopic devices based on plasmonic, photonic, electronic, spintronic operation can be analyzed with spectroscopy provided in the subject innovation. |
