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　　absorption cross-section

　　常见释义：

　　吸收截面.

　　1、absorption costing ─── 归纳成本计算法；全部成本计算法，归纳成本法，分担成本计算

　　2、absorption bands ─── 吸收波段；吸收谱带

　　3、absorption base ─── 吸收基质

　　4、section ─── vi.被切割成片；被分成部分；n.截面；部分；部门；地区；章节；vt.把…分段；将…切片；对…进行划分

　　5、absorption edge ─── 吸收边沿；【光】吸收限

　　6、bakery section ─── 烘焙区

　　7、absorption rate ─── 摊配率；吸收速率；吸收速度；分摊率

　　8、headland section ─── 地头剖面

　　9、absorption ─── n.吸收；全神贯注，专心致志

　　1、Studying the absorption characteristic of SO2 flue gas is the base of online monitoring. The temperature and pressure have different effect on

　　absorption cross-section

　　. ─── 研究SO2吸收性是光谱法在线监测的基础，被测环境的压力和温度等因素对SO2吸收截面有不同程度的影响。

　　2、And the two-photon absorption cross section of multi-branched organic molecule is stronger than that of molecule. ─── 研究结果表明，两分子均具有较大的双光子吸收截面，是很好的双光子吸收材料。

　　3、absorption cross section acceleration pressure drop acceleration pressure loss ─── 加速度压降损失

　　4、Measurement of Absorption Cross Section in Differential Optical Absorption Spectrometry ─── 差分吸收光谱技术中吸收截面的测量

　　5、Standard Absorption Cross Section Data Processing in Differential Optical Absorption Spectroscopy System ─── 差分光学吸收光谱系统中标准吸收截面数据处理方法研究

　　6、relationship between the temperature dependence of Erbium-doped Fiber Amplifier(EDFA) gain and emission and

　　absorption cross-section

　　of Erbium fiber is analyzed theoretically. ─── 理论上分析了掺铒光纤放大器（EDFA）增益的温度特性与铒光纤发射截面和吸收截面的关系，并通过实验研究了其增益随温度的变化关系。

　　7、The absorption term also is relatively straight forward, macroscopic absorption cross section times the flux. ─── 吸收项也是相对直接的，宏观吸收横截面乘以流量。

　　8、A radiation line strength database, HITRAN, is used to calculate the standard

　　absorption cross-section

　　. ─── 利用HITRAN数据库中的辐射线强等参数建立了用于浓度反演的标准吸收截面。

　　9、When the upper state population is not reversed, the channel with greater ratio of emission and

　　absorption cross-section

　　has greater competitive advantage. ─── 当上能级粒子数处于未反转分布态时，具有较大的发射截面与吸收截面比值的波长信道拥有相对较大的增益竞争优势。

　　We propose the coupled-cluster equation of motion method coupled with semiempirical Hamiltonian to calculate the multi-photon

　　absorption cross-section

　　for complex molecular systems.

　　When the upper state population is not reversed, the channel with greater ratio of emission and

　　absorption cross-section

　　has greater competitive advantage.

　　When the upper state population is reversed, the channel with greater difference of emission and

　　absorption cross-section

　　has bigger signal gain due to its competitive advantage.