灵敏度指示器的相对于被测量变化的位移率,灵敏度是衡量物理仪器的一个标志,特别是电学仪器注重仪器灵敏度的提高。通过灵敏度的研究可加深对仪表的构造和原理的理解。
仪器灵敏度高,测量范围大;能量响应特性好。
High sensitivity, wide measurement range; very good energy response characteristics.
通过优化原子吸收仪器工作条件、消除各种干扰及其它影响因素,可以提高仪器灵敏度和精密度,进而提高分析结果的准确度。
Ooptimuming the working conditions and removing the disturbing factors can improve the spectrophotometer sensitivity and accuracy, and improve the analysing effect.
仪器的灵敏度,较之之前提高了10个百分点,性能大有改善。
For each of the instruments, an improvement in sensitivity of better than a factor of ten was realized over previous missions.
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