221 resultados para H 460.7 C572c
em Chinese Academy of Sciences Institutional Repositories Grid Portal
Resumo:
We measured spectroscopic and laser action properties of a novel 8-position substituted pyrromethene-BF2, namely 1,3,5,7-tetramethyl-2,6-diethyl-8-n-propyl pyrromethene-BF2 complex. The laser action was performed with the corresponding dye solution in ethanol, which was placed in a Littman-type laser cavity pumped by the second harmonic of a Q-switched Nd:YAG laser. The spectroscopic measurements clearly indicated that the corresponding dye solution in ethanol exhibited intense absorption in the visible spectral region with large fluorescence quantum yield. It possesses rather low triplet-triplet absorption in the spectral region 460-550 nm and almost negligible triplet-triplet absorption in the lasing spectral region. As a consequence, it lases nearly as efficiently as commercially available benchmark laser dyes such as Rhodamine-6G and outperformed them in wavelength tunability in our laser cavity and pump geometry. (C) 2002 Optical Society of America.
Resumo:
The growth of highly lattice-mismatched InAs0.3Sb0.7 films on (100) GaAs Substrates by magnetron Sputtering has been investigated and even epitaxial lnAs(0.3)Sb(0.7) films have been successfully obtained. A strong effect of the growth conditions on the film structure was observed, revealing that there was a growth mechanism transition from three-dimensional nucleation growth to epitaxial layer-by-layer growth mode when increasing the substrate temperature. A qualitative explanation for that transition was proposed and the critical conditions for the epitaxial layer-by-layer growth mode were also discussed.
Resumo:
研究了童宪章院士"7.5B"的准确性和适应性,指出了"7.5B"方法只适用于多个油田的统计计算,而不完全适应于单一油藏.从理论上推导了"7.5B"的数学表达式,给出了一条准确计算该值的有效途径.对童氏水油比与采出程度关系乙型水驱法及采出程度与含水关系图版作了改进.
Resumo:
Direct numerical simulation (DNS) of a spatially evolving flat-plate boundary layer transition process at free stream Mach number 0.7 is performed. Tollmien-Schlichting (T-S) waves are added on the inlet boundary as the disturbances before transition. Typical coherent structures in the transition process are investigated based on the second invariant of velocity gradient tensor. The instantaneous shear stress and the mean velocity profile in the transition region are studied. In our view, the fact that the peak value of shear stress in the stress concentration area increases and exceeds a threshold value during the later stage of the transition process plays an important role in the laminar breakdown process.
Resumo:
We present numerical simulations of thermosolutal convection for directional solidification of Al-3.5 wt% Ni and Al-7 wt% Si. Numerical results predict that fragmentation of dendrite arms resulting from dissolution could be favored in Al-7 wt% Si, but not in Al-3.5 wt% Ni. Corresponding experiments are in qualitative agreement with the numerical predictions. Distinguishing the two fragmentation mechanisms, namely dissolution and remelting, is critical during experiments on earth, when fluid flow is dominant. (C) 2007 COSPAR. Published by Elsevier Ltd. All rights reserved.
Resumo:
The growth of InAsxSb1-x films on (100) GaSb substrates by liquid-phase epitaxy (LPE) has been investigated and epitaxial InAs0.3Sb0.7 films with InAs0.9Sb0.09 buffer layers have been successfully obtained. The low X-ray rocking curve FHWM values of InAs0.3Sb0.7 layer shows the high quality of crystal-orientation structure. Hall measurements show that the highest electron mobility in the samples obtained is 2.9 x 10(4) cm(2) V-1 s(-1) and the carrier density is 2.78 x 10(16)cm(-3) at room temperature (RT). The In As0.3Sb0.7 films grown on (10 0) GaSb substrates exhibit excellent optical performance with a cut-off wavelength of 12 mu m. (c) 2007 Elsevier B.V. All rights reserved.
Resumo:
本文利用十一种简化 Navier-Stokes 方程(SNSE) 求解已知Navier-Stokes(NS)方程准确解的层射流流动,表明:多数SNSE~([1-6])的解与NS方程的准确解不一致;少数SNSE~([7,8])的解与NS方程的准确解一致,文中在射流的喉部和拐点位置,给出几种SNSE解与准确解的相对偏差,并把粘性及惯性诸项加以定量比较,强调指出:按照边界层理论量级分析为Re~(1/2)和Re~1量级的惯性项以及Re~(-1/2)量级的粘性项具有重要影响;据此从力学角度论证了简化 NS 方程时,保留全部惯性项和合理取舍粘性项的必要性。
Resumo:
<正> Ⅰ.概况 国际等离子体化学会议(ISPC)每两年举行一次,主要交流等离子体化学如下几方面的研究和发展情况:合成,诊断,等离子体刻蚀,等离子体沉积和聚合,模型,表面作用以及熔化、气化、等离子体喷涂等。ISPC-7由荷兰Ejndhoven技术大学负责组织,Philips公司支持,在Philips会议中心举行。会议期1985年7月1—5日。第一天样品展览,
Resumo:
在山西省万家寨引黄入晋工程总干线 7#隧洞的开挖和衬砌的应力应变分析中 ,为确定土体c、Φ值和邓肯 -张模型参数 ,分别进行了加载试验和卸载试验 ,本文对用两种试验获得的模型参数进行有限元变形分析的结果进行比较。
Resumo:
<h3>hspace="6" width="150" height="213" align="left" />h3>
href="http://book.chaoxing.com/ebook/read_11266067_1.html" target="_blank">目 录
href="http://book.chaoxing.com/ebook/read_11266067_1.html" target="_blank">前言
href="http://book.chaoxing.com/ebook/read_11266067_1.html" target="_blank">第1篇教学实例篇
href="http://book.chaoxing.com/ebook/read_11266067_1.html" target="_blank">第1章简单拉压杆结构
href="http://book.chaoxing.com/ebook/read_11266067_2.html" target="_blank">1.1铰接杆在外力作用下的变形
href="http://book.chaoxing.com/ebook/read_11266067_6.html" target="_blank">1.2人字形屋架的静力分析
href="http://book.chaoxing.com/ebook/read_11266067_10.html" target="_blank">1.3超静定拉压杆的反力计算
href="http://book.chaoxing.com/ebook/read_11266067_13.html" target="_blank">1.4平行杆件与刚性梁连接的热应力问题
href="http://book.chaoxing.com/ebook/read_11266067_17.html" target="_blank">1.5端部有间隙的杆的热膨胀
href="http://book.chaoxing.com/ebook/read_11266067_21.html" target="_blank">第2章梁的弯曲问题
href="http://book.chaoxing.com/ebook/read_11266067_21.html" target="_blank">2.1等截面简单超静定梁的平面弯曲分析
href="http://book.chaoxing.com/ebook/read_11266067_29.html" target="_blank">2.2工字形截面外伸梁的平面弯曲
href="http://book.chaoxing.com/ebook/read_11266067_35.html" target="_blank">2.3矩形截面梁的纵横弯曲分析
href="http://book.chaoxing.com/ebook/read_11266067_45.html" target="_blank">2.4悬臂梁的双向弯曲
href="http://book.chaoxing.com/ebook/read_11266067_61.html" target="_blank">2.5 圆形截面悬臂杆的弯扭组合变形
href="http://book.chaoxing.com/ebook/read_11266067_65.html" target="_blank">2.6悬臂等强度梁的弯曲
href="http://book.chaoxing.com/ebook/read_11266067_79.html" target="_blank">2.8偏心受压杆的大变形分析
href="http://book.chaoxing.com/ebook/read_11266067_85.html" target="_blank">第3章杆系稳定性计算
href="http://book.chaoxing.com/ebook/read_11266067_85.html" target="_blank">3.1利用梁单元计算压杆稳定性
href="http://book.chaoxing.com/ebook/read_11266067_89.html" target="_blank">3.2利用实体单元计算压杆稳定性
href="http://book.chaoxing.com/ebook/read_11266067_94.html" target="_blank">3.3悬臂压杆的过曲屈分析
href="http://book.chaoxing.com/ebook/read_11266067_103.html" target="_blank">3.4平面钢架的平面外失稳
href="http://book.chaoxing.com/ebook/read_11266067_115.html" target="_blank">第4章实体模型应力分析
href="http://book.chaoxing.com/ebook/read_11266067_115.html" target="_blank">4.1 均布荷载作用下深梁的变形和应力
href="http://book.chaoxing.com/ebook/read_11266067_128.html" target="_blank">4.2一对集中力作用下的圆环
href="http://book.chaoxing.com/ebook/read_11266067_140.html" target="_blank">4.3用实体单元分析变截面杆的拉伸
href="http://book.chaoxing.com/ebook/read_11266067_148.html" target="_blank">4.4用二维实体单元分析等截面悬臂梁的平面弯曲
href="http://book.chaoxing.com/ebook/read_11266067_164.html" target="_blank">4.6纯弯曲悬臂曲梁的二维静力分析
href="http://book.chaoxing.com/ebook/read_11266067_189.html" target="_blank">4.8均匀拉力作用下含圆孔板的孔边应力集中
href="http://book.chaoxing.com/ebook/read_11266067_214.html" target="_blank">第5章膜和薄壳问题
href="http://book.chaoxing.com/ebook/read_11266067_224.html" target="_blank">5.2圆形薄膜大变形静力分析
href="http://book.chaoxing.com/ebook/read_11266067_230.html" target="_blank">5.3柱形容器在内压作用下的静力分析
href="http://book.chaoxing.com/ebook/read_11266067_234.html" target="_blank">5.4圆柱形薄壳在均匀内压作用下的静力分析
href="http://book.chaoxing.com/ebook/read_11266067_239.html" target="_blank">第6章板的弯曲和壳体计算
href="http://book.chaoxing.com/ebook/read_11266067_239.html" target="_blank">6.1简支和固支圆板的在不同荷载作用下的弯曲
href="http://book.chaoxing.com/ebook/read_11266067_250.html" target="_blank">6.2悬臂长板的大挠度弯曲
href="http://book.chaoxing.com/ebook/read_11266067_267.html" target="_blank">6.4利用拉伸操作建立膨胀弯管模型
href="http://book.chaoxing.com/ebook/read_11266067_276.html" target="_blank">6.5两端简支开口柱壳在自重作用下的静力分析
href="http://book.chaoxing.com/ebook/read_11266067_282.html" target="_blank">6.6圆筒在一对横向集中力作用下的变形
href="http://book.chaoxing.com/ebook/read_11266067_300.html" target="_blank">第7章简单振动系统
href="http://book.chaoxing.com/ebook/read_11266067_300.html" target="_blank">7.1单自由度弹簧质量系统的频率计算
href="http://book.chaoxing.com/ebook/read_11266067_304.html" target="_blank">7.2悬索自由振动的频率
href="http://book.chaoxing.com/ebook/read_11266067_310.html" target="_blank">7.3用弹簧单元连接的圆盘的扭转振动
href="http://book.chaoxing.com/ebook/read_11266067_314.html" target="_blank">7.4圆杆连接圆盘的扭转振动
href="http://book.chaoxing.com/ebook/read_11266067_318.html" target="_blank">7.5钻杆的扭转自由振动
href="http://book.chaoxing.com/ebook/read_11266067_325.html" target="_blank">第8章梁的振动分析
href="http://book.chaoxing.com/ebook/read_11266067_325.html" target="_blank">8.1简支梁的自振频率计算
href="http://book.chaoxing.com/ebook/read_11266067_335.html" target="_blank">8.2 自由―自由梁的纵向自由振动
href="http://book.chaoxing.com/ebook/read_11266067_339.html" target="_blank">8.3有轴向压力作用的简支梁的自由振动
href="http://book.chaoxing.com/ebook/read_11266067_345.html" target="_blank">8.4用壳体单元计算悬臂等强度梁的自由振动
href="http://book.chaoxing.com/ebook/read_11266067_351.html" target="_blank">8.5矩形截面薄壁悬臂梁的自由振动
href="http://book.chaoxing.com/ebook/read_11266067_358.html" target="_blank">第9章膜板和实体振动
href="http://book.chaoxing.com/ebook/read_11266067_358.html" target="_blank">9.1 圆形张紧薄膜的自由振动
href="http://book.chaoxing.com/ebook/read_11266067_364.html" target="_blank">9.2薄膜二维非轴对称自由振动分析
href="http://book.chaoxing.com/ebook/read_11266067_370.html" target="_blank">9.3薄膜三维非轴对称振动分析
href="http://book.chaoxing.com/ebook/read_11266067_378.html" target="_blank">9.4悬臂长板的自由振动频率
href="http://book.chaoxing.com/ebook/read_11266067_382.html" target="_blank">9.5悬臂宽板的模态分析
href="http://book.chaoxing.com/ebook/read_11266067_388.html" target="_blank">9.6固支圆板的自由振动
href="http://book.chaoxing.com/ebook/read_11266067_392.html" target="_blank">9.7用实体单元分析圆环的振动
href="http://book.chaoxing.com/ebook/read_11266067_397.html" target="_blank">9.8机翼模型的振动分析
href="http://book.chaoxing.com/ebook/read_11266067_405.html" target="_blank">第1 0章平面建模分析和三维实体建模
href="http://book.chaoxing.com/ebook/read_11266067_405.html" target="_blank">10.1 带三个圆孔的平面支座分析
href="http://book.chaoxing.com/ebook/read_11266067_410.html" target="_blank">10.2角支座应力分析
href="http://book.chaoxing.com/ebook/read_11266067_416.html" target="_blank">10.3 体斜支座的实体建模
href="http://book.chaoxing.com/ebook/read_11266067_422.html" target="_blank">10.4四分之一车轮的实体建模
href="http://book.chaoxing.com/ebook/read_11266067_425.html" target="_blank">10.5轴承支座的实体建模
href="http://book.chaoxing.com/ebook/read_11266067_434.html" target="_blank">第1 1章最优化设计
href="http://book.chaoxing.com/ebook/read_11266067_434.html" target="_blank">11.1概述
href="http://book.chaoxing.com/ebook/read_11266067_435.html" target="_blank">11.2最优化问题框架
href="http://book.chaoxing.com/ebook/read_11266067_436.html" target="_blank">11.3 ANSYS优化设计流程
href="http://book.chaoxing.com/ebook/read_11266067_436.html" target="_blank">11.4变截面悬臂梁的外形形状优化
href="http://book.chaoxing.com/ebook/read_11266067_447.html" target="_blank">11.5平面刚架的优化设计
href="http://book.chaoxing.com/ebook/read_11266067_454.html" target="_blank">第12章层合板和断裂力学
href="http://book.chaoxing.com/ebook/read_11266067_485.html" target="_blank">第2篇工程应用篇
href="http://book.chaoxing.com/ebook/read_11266067_485.html" target="_blank">第13章用APDL实现空间网壳结构参数化建模
href="http://book.chaoxing.com/ebook/read_11266067_485.html" target="_blank">13.1 K系列球面网壳结构的特点和建模
href="http://book.chaoxing.com/ebook/read_11266067_485.html" target="_blank">13.1.1 K系列球面网壳的特点
href="http://book.chaoxing.com/ebook/read_11266067_486.html" target="_blank">13.1.2几何描述
href="http://book.chaoxing.com/ebook/read_11266067_486.html" target="_blank">13.1.3杆件连接关系
href="http://book.chaoxing.com/ebook/read_11266067_486.html" target="_blank">13.2参数化设计语言APDL介绍
href="http://book.chaoxing.com/ebook/read_11266067_487.html" target="_blank">13.2.1参数和表达式
href="http://book.chaoxing.com/ebook/read_11266067_487.html" target="_blank">13.2.2 ANSYS 中的基本指令
href="http://book.chaoxing.com/ebook/read_11266067_488.html" target="_blank">13.2.3分支和循环
href="http://book.chaoxing.com/ebook/read_11266067_490.html" target="_blank">13.3用户界面设计语言UIDL介绍
href="http://book.chaoxing.com/ebook/read_11266067_490.html" target="_blank">13.3.1 单行参数输入
href="http://book.chaoxing.com/ebook/read_11266067_490.html" target="_blank">13.3.2多行参数输入
href="http://book.chaoxing.com/ebook/read_11266067_491.html" target="_blank">13.4网壳建模程序设计
href="http://book.chaoxing.com/ebook/read_11266067_491.html" target="_blank">13.4.1模型建立的步骤
href="http://book.chaoxing.com/ebook/read_11266067_491.html" target="_blank">13.4.2节点坐标计算
href="http://book.chaoxing.com/ebook/read_11266067_493.html" target="_blank">13.4.3单元连接
href="http://book.chaoxing.com/ebook/read_11266067_494.html" target="_blank">13.4.4变量说明
href="http://book.chaoxing.com/ebook/read_11266067_494.html" target="_blank">13.4.5节点坐标计算公式
href="http://book.chaoxing.com/ebook/read_11266067_495.html" target="_blank">13.4.6主框图说明
href="http://book.chaoxing.com/ebook/read_11266067_495.html" target="_blank">13.4.7单元连接关系定义
href="http://book.chaoxing.com/ebook/read_11266067_496.html" target="_blank">13.4.8源程序
href="http://book.chaoxing.com/ebook/read_11266067_499.html" target="_blank">13.5程序使用说明
href="http://book.chaoxing.com/ebook/read_11266067_499.html" target="_blank">13.5.1加载程序
href="http://book.chaoxing.com/ebook/read_11266067_499.html" target="_blank">13.5.2界面说明
href="http://book.chaoxing.com/ebook/read_11266067_501.html" target="_blank">13.5.3注意事项
href="http://book.chaoxing.com/ebook/read_11266067_501.html" target="_blank">13.6应用举例
href="http://book.chaoxing.com/ebook/read_11266067_501.html" target="_blank">13.6.1基本参数
href="http://book.chaoxing.com/ebook/read_11266067_501.html" target="_blank">13.6.2输入数据并生成模型
href="http://book.chaoxing.com/ebook/read_11266067_502.html" target="_blank">13.6.3输入单元参数和荷载后开始计算
href="http://book.chaoxing.com/ebook/read_11266067_502.html" target="_blank">13.6.4选择结果输出方式
href="http://book.chaoxing.com/ebook/read_11266067_503.html" target="_blank">第14章塔式起重机静动力分析
href="http://book.chaoxing.com/ebook/read_11266067_503.html" target="_blank">14.1塔式起重机基本概念
href="http://book.chaoxing.com/ebook/read_11266067_503.html" target="_blank">14.2塔式起重机拓扑模型
href="http://book.chaoxing.com/ebook/read_11266067_505.html" target="_blank">14.3塔机模型受力分析
href="http://book.chaoxing.com/ebook/read_11266067_506.html" target="_blank">14.3.1部件受力特征分析
href="http://book.chaoxing.com/ebook/read_11266067_506.html" target="_blank">14.3.2截面参数定义
href="http://book.chaoxing.com/ebook/read_11266067_506.html" target="_blank">14.3.3自重荷载和配重
href="http://book.chaoxing.com/ebook/read_11266067_506.html" target="_blank">14.3.4选用合适的分析模型。
href="http://book.chaoxing.com/ebook/read_11266067_507.html" target="_blank">14.3.5 固定塔身底部的4个节点
href="http://book.chaoxing.com/ebook/read_11266067_507.html" target="_blank">14.4塔机建模程序设计
href="http://book.chaoxing.com/ebook/read_11266067_507.html" target="_blank">14.4.1塔身节点计算和单元连接
href="http://book.chaoxing.com/ebook/read_11266067_508.html" target="_blank">14.4.2塔顶建模
href="http://book.chaoxing.com/ebook/read_11266067_508.html" target="_blank">14.4.3塔臂建模
href="http://book.chaoxing.com/ebook/read_11266067_509.html" target="_blank">14.4.4平衡臂和斜拉索建模
href="http://book.chaoxing.com/ebook/read_11266067_510.html" target="_blank">14.5塔机静力分析
href="http://book.chaoxing.com/ebook/read_11266067_516.html" target="_blank">14.6塔机模态分析
href="http://book.chaoxing.com/ebook/read_11266067_519.html" target="_blank">14.7塔机静动力分析程序
href="http://book.chaoxing.com/ebook/read_11266067_536.html" target="_blank">第15章长柱形天然气罐在内压作用下的静力分析
href="http://book.chaoxing.com/ebook/read_11266067_536.html" target="_blank">15.1概述
href="http://book.chaoxing.com/ebook/read_11266067_536.html" target="_blank">15.2建立模型
href="http://book.chaoxing.com/ebook/read_11266067_537.html" target="_blank">15.3利用轴对称壳单元SHELL51计算
href="http://book.chaoxing.com/ebook/read_11266067_537.html" target="_blank">15.3.1单元基本性质和约定
href="http://book.chaoxing.com/ebook/read_11266067_539.html" target="_blank">15.3.2求解过程
href="http://book.chaoxing.com/ebook/read_11266067_542.html" target="_blank">15.3.3源程序
href="http://book.chaoxing.com/ebook/read_11266067_544.html" target="_blank">15.3.4计算结果
href="http://book.chaoxing.com/ebook/read_11266067_546.html" target="_blank">15.3.5简体部分理论解
href="http://book.chaoxing.com/ebook/read_11266067_546.html" target="_blank">15.3.6结果讨论
href="http://book.chaoxing.com/ebook/read_11266067_551.html" target="_blank">15.4.1建立模型
href="http://book.chaoxing.com/ebook/read_11266067_551.html" target="_blank">15.4.2计算过程
href="http://book.chaoxing.com/ebook/read_11266067_558.html" target="_blank">15.4.3计算结果及讨论
href="http://book.chaoxing.com/ebook/read_11266067_559.html" target="_blank">15.4.4源程序
href="http://book.chaoxing.com/ebook/read_11266067_560.html" target="_blank">15.5.1建立1/4三维模型
href="http://book.chaoxing.com/ebook/read_11266067_561.html" target="_blank">15.5.2计算步骤
href="http://book.chaoxing.com/ebook/read_11266067_567.html" target="_blank">15.5.3计算结果分析
href="http://book.chaoxing.com/ebook/read_11266067_570.html" target="_blank">15.5.4与弹性力学解答的对比
href="http://book.chaoxing.com/ebook/read_11266067_571.html" target="_blank">15.5.5计算程序
href="http://book.chaoxing.com/ebook/read_11266067_573.html" target="_blank">附录
href="http://book.chaoxing.com/ebook/read_11266067_573.html" target="_blank">附录A常用结构单元参考
href="http://book.chaoxing.com/ebook/read_11266067_606.html" target="_blank">附录B结构分析命令速查
href="http://book.chaoxing.com/ebook/read_11266067_647.html" target="_blank">参考文献
Resumo:
Effects of wall temperature on stabilities of hypersonic boundary layer over a 7-degree half-cone-angle blunt cone are studied by using both direct numerical simulation (DNS) and linear stability theory (LST) analysis. Four isothermal wall cases with Tw/T0= 0.5, 0.7, 0.8 and 0.9, as well as an adiabatic wall case are considered. Results of both DNS and LST indicate that wall temperature has significant effects on the growth of disturbance waves. Cooling the surface accelerates unstable Mack II mode waves and decelerates the first mode (Tollmien–Schlichting mode) waves. LST results show that growth rate of the most unstable Mack II mode waves for the cases of cold wall Tw/T0=0.5 and 0.7 are about 45% and 25% larger than that for the adiabatic wall, respectively. Numerical results show that surface cooling modifies the profiles of rdut/dyn and temperature in the boundary layers, and thus changes the stability haracteristic of the boundary layers, and then effects on the growth of unstable waves. The results of DNS indicate that the disturbances with the frequency range from about 119.4 to 179.1 kHz, including the most unstable Mack modes, produce strong mode competition in the downstream region from about 11 to 100 nose radii. And adiabatic wall enhances the amplitudes of disturbance according to the results of DNS, although the LST indicates that the growth rate of the disturbance of cold wall is larger. That because the growth of the disturbance does not only depend on the development of the second unstable mode.
Resumo:
采用脉冲宽度为7 fs,脉冲能量为0.4mJ的超快强激光脉冲与气体盒子中Ar原子作用获得了高次谐波截止区连续谱,并发现当驱动激光稳定在不同的载波包络相位时,高次谐波的谱结构、谱调制深度和连续谱的带宽都有很大区别。在某些载波包络相位时获得了平滑的连续谱,调制深度小于17%,连续带宽达10eV,从而支持时域上获得变换极限500as的单个阿秒脉冲。
Resumo:
Two-cycle optical pulses with duration of 5 fs and energy of 0.7 mJ have been generated at 1 kHz by compressing the 38 fs laser pulses from a carrier-envelope phase (CEP) controlled Ti:sapphire laser system through a cascade filamentation compression technique. A simple and effective method is developed to suppress multiple filament formation and stabilize a single filament by inserting a soft aperture with an appropriate diameter into the driving laser beam prior to focusing, resulting in an excellent compressed beam quality. The good beam quality and potentially higher peak power make this ultrashort laser pulse source a significant tool for high-field physics applications. (C) 2007 Optical Society of America.