这样便将图象分辨率提高到了0.5微米或500纳米。
That brings the resolution to half a micron, or 500 nanometres.
基于该原理,可将光栅尺位移测量分辨率提高1 ~ 3个数量级。
Based on this principle the resolution of grating scale for large displacement can be enhanced 1 ~ 3 power.
理论仿真结果表明,采用频域反卷积算法可以在不降低光源脉冲宽度的情况下,将空间分辨率提高四倍。
Numerical simulation shows that the spatial resolution is enhanced by four times using the frequency-domain deconvolution algorithm with high temperature accuracy.
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