- 更多网络例句与能量传递相关的网络例句 [注:此内容来源于网络,仅供参考]
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The HEED, XRD, and XPS results confirmed the forming of intermetallic compounds between silver and rare earth. As far as silver and lanthanum be concerned, the format of intermetallic compound is AgLa.
由此,本文首次提出了稀土元素在稀土金属间化合物中的能量传递模型,认为稀土与银金属间化合物的4f能级位于费米能级附近下方,部分局域化且与导带部分耦合。4f能级与导带能级之间的电子跃迁是稀土元素在Ag-BaO薄膜中传递能量的方式,也是光电发射增强效应的来源,而4f电子的光吸收截面随入射光子能量的增加而增大的特点则是"蓝强"现象的原因。
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The models of intramolecular and intermolecular energy transfer and relaxation processes are established.
Phen〓的发光效率大大减小,这是由于不同配合物分子间能量传递过程差别引起的,由此建立了分子内和分子间能量传递和弛豫过程模型。
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According to the experimental results of steady-state spectra and time-resolved fluorescence spectra studied, parallel paths of rod-to-core energy transfer in phycobilisomes have firstly been found, with APCⅠ and APC B being the final acceptors, respectively.
根据稳态光谱和时间分辨荧光光谱实验结果,首次提出了C-PC与APCⅠ及C-PC与APCB的能量传递途径,发现了藻胆体中杆到核的能量传递的并行路径。
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Finally, we design a series of module and system testing. From the result of these testing, we get the conclusion: in our Centrifuge Experiment System which is based on Wireless Optical Communication and Electrical Slip Ring, both data and power can be transmitted well between the stator and the rotor of Centrifuge, So the validity of our design can be proved.
最后,本课题设计了充分的实验,分别从功能模块和系统的角度,对本无线光传输系统和能量传输系统进行了测试,从测试结果可以看出:在以无线光传输作为信息传输方式和以导电滑环作为能量传输方式的离心机系统中,无论是信息传递,还是能量传递,均能满足系统的设计性能指标,由此证明了本论文研究工作的正确性和有效性。
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The HEED, XRD, and XPS results confirmed the forming of intermetallic compounds between silver and rare earth. As far as silver and lanthanum be concerned, the format of intermetallic compound is AgLa.
由此,本文首次提出了稀土元素在稀土金属间化合物中的能量传递模型,认为稀土与银金属间化合物的4f能级位于费米能级附近下方,部分局域化且与导带部分耦合。4f能级与导带能级之间的电子跃迁是稀土元素在Ag-BaO薄膜中传递能量的方式,也是光电发射增强效应的来源,而4f电子的光吸收截面随入射光子能量的增加而增大的特点则是&蓝强&现象的原因。
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We propose a new mechanism of ASFC, which based on energy transfer among the centers within the inhomogeneously broadened spectral profile. We discuss it in two situations: small energy mismatch and large energy mismatch. The dependence of relative cooling efficiency on excitation photon energy and temperature is also discussed in evaluating the new mechanism.
提出了荧光光谱的非均匀线形内不同发光中心的能量传递产生荧光制冷效应的理论,分别对小能量失配的传递过程和大能量失配的传递过程进行了研究,认为在一定的条件下这两种过程都可以产生荧光制冷效应,并给出了相对制冷效率。
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Three novel single-singlet energy transfer pairs between ketocoumarin dyes and rose bengal BNa〓 Salt were designed and their properties were studied in micelles and vesicle.
以合成的香豆素染料作为能量给体,以孟加拉玫瑰钠盐作为能量受体,设计了三对新型的能量传递对(即:香豆素染料-孟加拉玫瑰钠盐),研究了它们在胶束或囊泡中的能量传递,其结果如下
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In PEC trimers, the energy transfer paths in PEC monomers remain, but the transfer rates between the chromophores become higher due to strong couplings between pairs of the nearest neighbor chromophores 1α〓-PVB/2β〓-PCB. Meanwhile, a new energy transfer path with a time constant of about 40 ps emerges among the three β〓-PCB chromophores of C〓 symmetry in PEC trimers.
在PEC三聚体中,在相同单体中的能量传递途径仍存在,由于三聚体毗邻的1α〓-PVB/2β〓-PCB色团对之间的强耦合,使不同色素之间的能量传递速度加快;同时,在PEC三聚体中出现新的能量传递途径:3个具有C〓空间对称性的β〓-PCB之间所发生的较快速的能量传递(约40 ps)。
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The results reveal that two energy transfer paths (i. e.β-PEB→α/β-PCB and β-PEB→α/βPCB′) with time constants of 50ps and 200ps, respectively, exist in R-PC monomers, and that α/β-PCB′chromophores are the terminal emitting acceptors with fluorescence lifetimes of 1150 ps. The experimental results of time-resolved fluorescence spectroscopy in case of R-PC trimers exhibit that the corresponding energy transfer processes are faster in R-PC trimers than in R-PC monomers, with time constants being 45ps, 165 ps and 920ps.
结果显示:在R-PC单体中存在2条能量传递途径,即β-PEB→α/β-PCB和β-PEB→α/β-PCB′能量传递过程,其时间常数分别为50ps和200ps;作为终端发色团的α/β-PCB′的荧光发射时间常数为1150ps.R-PC三聚体的时间分辨荧光光谱实验结果显示对应的能量传递过程速率加快,其时间常数分别为45ps,165ps和920ps。
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8Ps for native and NaBH〓 chemically modified reaction centers, and the transfer process from H〓 to the final electron acceptor Q〓 occurs in about hundreds of picoseconds. On the other hand, the energy transfer from excited B was obviously slowed down in the pheophytin-exchanged RC. By considering the change of free energy of ion pair P〓Phe〓, it could be expected there might exist alternative pathway of charge separation and electron transfer in pigment-exchanged reaction center. In addition, the influence of acid environment on the ultrafast dynamics of reaction center was also experimentally observed, which shows an evident difference from that of in native RC, and further investigation should be carried out to elucidate the origination.
在色素置换后的反应中心中,以B为起点的能量传递较天然RC的情况明显减慢,约在450fs左右,考虑到置换后的反应中心中P的自由能有所提高以及其仍然保持的光化学活性,这一较慢的能量传递也可能预示着还存在着其它的能量传递通道;另外,还对酸性处理的反应中心中的超快光动力学过程进行了尝试性的研究,发现由于色素分子的聚集以及蛋白环境的改变,BChl分子的激发态动力学过程有着明显不同于天然反应中心的情况。
- 更多网络解释与能量传递相关的网络解释 [注:此内容来源于网络,仅供参考]
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energy transfer:能量传递
energy technology 能源工程学 | energy transfer 能量传递 | energy transport 能量输送
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linear energy transfer:线能量传递
linear element 线性元件 | linear energy transfer 线能量传递 | linear expansion 线膨胀
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energy transfer way:能量传递途径
energy transducer 能量转换器 | energy transfer way 能量传递途径 | enervation 神经无力
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resonance energy transfer:共振能量传递
resonance effect 共振效应 | resonance energy transfer 共振能量传递 | resonance fluorescence 共振荧光
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resonance energy transfer:共振能量传递,能量共振转移
resonance energy 共振能 | resonance energy transfer 共振能量传递,能量共振转移 | resonance escape factor 逃脱共振因子
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heat transfer:传热
"传热(Heat Transfer)":既然说热是一种传递能量的形式.那就不能不谈传 递的方法了.总的来说整个大自然界能量传递的方式被我们聪明的老祖先(请记住.热力学 Thermal Dynamic 是古典力学的一种!
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let:线性能量传递
肌肉 33.线性能量传递(LET)与氧增强比的关系是:39.相对生物效应(REB)与:11.胃的粘膜相关性非霍奇金淋巴瘤(MALT)用抗幽门螺旋杆菌药物治疗后:32.低线性能量传递(LET)射线照射哺乳动物细胞存活曲线:33.氧增强比(OER)是指:11
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energy straggling:能量歧离
energy spectrum 能谱 | energy straggling 能量歧离 | energy transfer 能量传递
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energy straggling:能量歧离, 能量分散
energy spectrum 能谱 | energy straggling 能量歧离, 能量分散 | energy transfer 能量传递
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resonance energy transfer:共振能量传递,能量共振转移
resonance energy ==> 共振能 | resonance energy transfer ==> 共振能量传递,能量共振转移 | resonance escape factor ==> 逃脱共振因子