To solve the problem, Charlet perfected a system that uses the polarization and phase of a pulse of light, rather than its intensity, to encode data.
为了解决这个问题,查莱特完善了一个使用光脉冲偏振和相位的系统,而不是它的强度,以此来记录电码。
The total level of scattered light intensity can be reduced by polarization technique, while the undulation of scattered light can be suppressed by magnetic field.
偏振-同步荧光法能有效地抑制同步扫描过程中散射光总水平的影响,外加磁场效应能有效地抑制散射光的波动。
It also shows the relationship of light intensity in any direction of polarization splitter and phase delay of a single plate within PC, and proves the result by experiments.
给出了偏振光分束器任一个偏振方向上的光强随单个波片相位延迟变化的关系,并从实验上验证了这一关系。
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