| 1. | Erythema reference action spectrum and standard erythema dose
红斑参考作用光谱和标准红斑剂量 |
| 2. | Figure 1 erythemal action spectrum
图一红班作用光谱曲线 |
| 3. | Erythemal action spectrum
红班作用光谱曲线 |
| 4. | Erythemal action spectrum
红斑作用光谱曲线 |
| 5. | Biological action spectrum
生物作用光谱 |
| 6. | Measured uv intensity across the solar uv spectrum and the erythemal action spectrum
图二太阳紫外线光谱内所量度的紫外线强度及红斑作用光谱曲线 |
| 7. | Measured uv intensity across the solar uv spectrum and the erythemal action spectrum
图一太阳紫外线光谱内所量度的紫外线强度及红班作用光谱曲线 |
| 8. | The standard way to calculate the uv index recommended by the world meteorological organization and the world health organization is
图一红斑作用光谱曲线世界气象组织及世界卫生组织所建议的计算紫外线指数标准方法为: |
| 9. | High - molecular resin containing fluorescent auxiliary and colorant was made agricultural flint in order to simulate action spectrum of crops
摘要采用在高分子树脂中分散进荧光助剂、着色剂来模拟栽培作物的作用光谱并制成农膜。 |
| 10. | Multiply these uv intensities by the weighting factors at the corresponding wavelengths in the erythemal action spectrum red line in figure 2 to reflect the human skin s response to each wavelength ,
将不同波长的太阳紫外线强度乘红斑作用光谱曲线内对应的加权数值以反映人类皮肤对紫外线的反应, |
