论文信息 - High-throughput parallel SPM for metrology, defect, and mask inspection

High-throughput parallel SPM for metrology, defect, and mask inspection

Scanning probe microscopy (SPM) is a promising candidate for accurate assessment of metrology and defects on wafers and masks, however it has traditionally been too slow for high-throughput applications, although recent developments have significantly pushed the speed of SPM [1,2]. In this paper we present new results obtained with our previously presented high-throughput parallel SPM system [3,4] that showcase two key advances that are required for a successful deployment of SPM in high-throughput metrology, defect and mask inspection. The first is a very fast (up to 40 lines/s) image acquisition and a comparison of the image quality as function of speed. Secondly, a fast approach method: measurements of the scan-head approaching the sample from 0.2 and 1.0 mm distance in under 1.4 and 6 seconds respectively.

[1] Yan Hu,et al. High-speed atomic force microscopy for patterned defect review , 2013, Advanced Lithography.

[2] Takeshi Fukuma,et al. High resonance frequency force microscope scanner using inertia balance support , 2008 .

[3] N. B. Koster,et al. Parallel, miniaturized scanning probe microscope for defect inspection and review , 2014, Advanced Lithography.

[4] N. B. Koster,et al. Introduction of a high throughput SPM for defect inspection and process control , 2013, Advanced Lithography.

[5] Kei Kobayashi,et al. Development of low noise cantilever deflection sensor for multienvironment frequency-modulation atomic force microscopy , 2005 .