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Lawrence-Gurney模型给出了求解激光驱动飞片速度的方程组。文章从理论和试验两个方面对Lawrence-Gurney模型的适用性进行了分析,发现该模型不能较好地描述厚度为10μm以下飞片的驱动过程。主要原因是Lawrence-Gurney模型对激光与飞片的具体相互作用过程进行了简化假设,依据能量守恒和动量守恒定律建立数学方程组,而这些假设条件和近似求解条件对于厚度小于10μm的飞片均不能很好地成立,导致对飞片速度、能量耦合效率、冲量耦合系数和飞片烧蚀深度随激光能量变化的理论预估结果与试验结果偏差较大,需要进行修正。 相似文献
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针对预警雷达对海监视面临海杂波分布非均匀与杂波样本受目标污染,导致自适应杂波抑制处理性能恶化和目标能量损失的问题,提出了一种基于海杂波稀疏性与非均匀度的样本挑选方法。该方法将目标的导向约束与广义内积样本挑选方法结合,先利用海杂波在空时二维平面上的稀疏分布特性,根据海杂波与目标空时二维分布差异剔除被目标污染的样本,再利用广义内积准则衡量海杂波分布的非均匀程度,并获取均匀样本,以提高杂波协方差矩阵的估计精度。仿真结果表明:所提方法能在提高杂波抑制性能的同时,减小目标信号能量损失。该方法可广泛应用于海面预警监视雷达系统。 相似文献
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W Cao T W Tibbitts R M Wheeler 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》1994,14(11):243-250
Separate controlled environment studies were conducted to determine the interaction of CO2 with irradiance and interaction of CO2 with temperature on growth of three potato cultivars. In the first study, an elevated CO2 concentration of 1000 micromoles mol-1 and an ambient CO2 of 350 micromoles mol-1 were maintained at the photosynthetic photon fluxes (PPF) of 17 and 34 mol m-2 d-1 with 12 h photoperiod, and at the PPF of 34 and 68 mol m-2 d-1 with 24 h photoperiod (400 and 800 micromoles m-2 s-1 PPF at each photoperiod). Tuber and total dry weights of 90-day old potatoes were significantly increased with CO2 enrichment, but the CO2 stimulation was less with higher PPF and longer photoperiod. Shoot dry weight was affected more by photoperiod than by PPF and CO2 concentrations. The elevated CO2 concentration increased leaf CO2 assimilation rates and decreased stomatal conductance with 12 h photoperiod, but had only a marginal effect with 24 h photoperiod. In the second study, four CO2 concentrations of 500, 1000, 1500 and 2000 micromoles mol-1 were combined with two air temperature regimes of 16 and 20 degrees C under a 12 h photoperiod. At harvest, 35 days after transplanting, tuber and total dry weights of potatoes reached a maximum with 1000 micromoles mol-1 CO2 at 16 degrees C, but continued to increase up to 2000 micromoles mol-1 CO2 at 20 degrees C. Plant growth was greater at 20 degrees C than at 16 degrees C under all CO2 concentrations. At 16 degrees C specific leaf weight increased substantially with increasing CO2 concentrations as compared to 500 micromoles mol-1 CO2, but increased only slightly at 20 degrees C. This suggests a carbohydrate build-up in the leaves at 16 degrees C temperature that reduces plant response to increased CO2 concentrations. The data in the two studies indicate that a PPF of 34 mol m-2 d-1, 20 degrees C temperature, and 1000-2000 micromoles mol-1 CO2 produces optimal tuber yield in potatoes. 相似文献
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T W Tibbitts W Cao 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》1994,14(11):427-433
This report discusses the advantages and limitations of several different procedures for growth of potatoes for CELSS. Solution culture, in which roots and stolons are submerged, and aeroponic culture were not found useful for potatoes because stolons did not produce tubers unless a severe stress was applied to the plants. In detailed comparison studies, three selected culture systems were compared, nutrient film technique (NFT), NFT with shallow media, and pot culture with deep media. For the NFT and NFT plus shallow media, plants were grown in 0.3 m2 trays and for the deep medium culture, in 20 liter pots. A 1 cm depth of arcillite, a baked montmorillonite clay, was used as shallow media (NFT-arc). Peat-vermiculite mixture was used to fill the pots for the deep media. Nutrient solution, modified half-strength Hoagland's, was recirculated among the tray culture plants with pH automatically controlled at 5.5, and conductivity maintained at approximately 1100 microS cm-1 by adding stock nutrients or renewing the solution. A separate nutrient solution was used to water the pot plants four times daily to excess and the excess was discarded. Plants of Norland cv. were utilized and transplanted from sterile-propagated stem cutting plantlets. The plants were grown for 66 days under 12 h photoperiod in a first study and grown for 54 days under 24 h photoperiod in a second study. Under both photoperiods, total plant growth was greater in NFT-arc than in either NFT or pot culture. Under 12 h photoperiod, tuber dry weight was 30% higher with NFT-arc, but 50% lower with NFT, than with pot culture. Under 24 h photoperiod, however, tuber dry weight in both NFT and NFT-arc was only 20% of that in pot culture. The NFT and NFT-arc produced a greater shoot growth and larger number of small tubers than pot culture, especially with 24 h photoperiod. It is concluded that there are serious limitations to the use of NFT alone for growth of potatoes in a CELSS system. These limitations can be minimized by using a modified NFT with a shallow layer of media, such as arcillite, yet additional work is needed to ensure high tuber production with this system under long photoperiods. 相似文献