<p>名称:奥林巴斯全电动倒置显微镜iX83</p><p>型号:iX83</p><p>产地:日本</p><p>品牌:奥林巴斯</p><p>产品介绍:</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">全电动IX83显微镜是IX3系列倒置成像系统中的产品,它将应用的灵活性推向了一个新的高度。有两款系统可供选择:配备有较低载物台高度的人体工程学的单层光路系统和具有额外扩展能力的双层系统。两款系统均可运行多种成像应用,无论是长时程的时间序列成像,还是常规实验和图像获取都可以胜任。用户可以根据自己的应用需求塑造适合的组件和控件。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><span style="text-indent: 2em;">具备满足可延伸性研究需求的扩展空间</span></p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;">奥林巴斯全电动倒置显微镜IX83专为满足各种研究需求而设计。与其具有扩展能力的选配模块配套使用时,两款显微镜系统均可开展多种成像技术,无论是长时程的时间序列成像,图像获取,还是其他技术应用需求都可以胜任。</p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;">IX83独特的开放式显微镜光路系统具备了光路拓展空间,进而可以轻松地升级或更替光学模块。用户可以根据需要轻松地切换各种层光路模块,从而实现添加或改变一些功能。通过简单的滑入设计,IX3-ZDC模块就可以轻易地添加入到IX83系统当中,并在延长的时间序列实验中保持连续聚焦状态。</p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;"><span style="text-indent: 2em;">奥林巴斯全电动倒置显微镜IX83:双层光路系统</span></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">在活细胞研究和高端成像应用过程中,可以实现高速的全自动硬件配置。双层光路系统配置提供出色的扩展能力。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/8392668.jpg" title="IX83双层光路系统" width="500" height="314" border="0" hspace="0" vspace="0" alt="IX83双层光路系统" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"><br></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><br></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">奥林巴斯全电动倒置显微镜IX83:单层光路系统</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">智能型的全电动显微镜兼具大视野(FN22,左侧光口)和IX3-ZDC等功能,为活细胞成像系统设立了新标准。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/5098554.jpg" title="IX83单层光路系统" width="500" height="314" border="0" hspace="0" vspace="0" alt="IX83单层光路系统" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><span style="text-indent: 2em;">可信赖的、清晰明亮的、高分辨率的图像</span></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">Olympus UIS2无限远校正光学系统配备有多种物镜,保证了高光学透过率。UIS2光学系统具备宽光谱范围的色差校正能力,不管在何种观察条件下,均可采集具有高信噪比、高分辨率图像。此外,宽视场和复眼透镜系统更确保了采集的荧光图像照明均匀,而且能够使用搭载有大型传感器的SCMOS相机。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/5994764.jpg" width="500" height="314" title="可信赖的、清晰明亮的、高分辨率的图像" alt="可信赖的、清晰明亮的、高分辨率的图像" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><span style="text-indent: 2em;">图像质量</span></p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;"><strong>出色的高质量高分辨率相衬和荧光观察图像的复消色差相衬物镜</strong></p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;">即使是在同时进行相衬观察和荧光观察的情况下,复消色差相衬物镜 (UPLSAPO100XOPH、PLAPON60XOPH) 也可实现不受图像漂移影响的高精度成像。这一特性使得切换观察方法时,无需更换物镜。</p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;">HeLa 细胞中表达 mCherry标记的actin</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/6155576.jpg" width="500" height="314" title="图像质量" alt="图像质量" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">图像数据来源: Tomonobu Watanabe, Ph.D. Laboratory forComprehensive Bioimaging, RIKEN Quantitative Biology Center</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/2929716.jpg" width="300" height="188" title="IX83双层光路系统" border="0" vspace="0" alt="IX83双层光路系统" style="border-width: 0px; border-style: initial; max-width: 725px; width: 300px; height: 188px;"> <img src="https://www.tengrant.com/upLoad/image/20200605/5119154.jpg" width="300" height="189" title="UPLSAPO100×OPH" alt="UPLSAPO100×OPH" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 300px; height: 189px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">IX83:双层光路系统 UPLSAPO100×OPH,PLAPON60×OPH</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="line-height: 19px;"><br></strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="line-height: 19px;">针对活细胞高分辨率观察的硅油油浸物镜*</strong></p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;">Olympus提供了三种高数值孔径硅油油浸物镜: <br>UPLSAPO30XS、UPLSAPO40XS和UPLSAPO60XS。硅油的折射率(折射率ne≈1.40) 接近生物组织的折射率 (ne≈1.38) ,可以对生物组织内部进行深度的高分辨率观察,并大程度地降低了由折射率不匹配所导致的球面象差问题。 <br>此外,硅油不会变干或变硬,因此不需要重新滴加硅油,从而使得硅油非常适用于进行长时程的观察。</p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;">*请使用专用硅油。</p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;"><br></p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;">NMuMG / Fucci2细胞三维重建图像</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/1726438.jpg" width="500" height="314" title="Fucci2细胞三维重建图像" alt="Fucci2细胞三维重建图像" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">Olympus FV1000采集的共聚焦图像。 (红色:细胞周期G1期,绿色:细胞周期的S / G2 / M期) 图像数据来源: Asako Sakaue-Sawano, Ph.D. Atsushi Miyawaki, M.D., Ph.D. Laboratoryfor Cell Function Dynamics, Advanced Technology Development Core, RIKEN BrainScience Institute</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><br></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">UPLSAPO30XS,UPLSAPO40XS和 UPLSAPO60XS</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/6420759.jpg" width="500" height="314" title="UPLSAPO30XS,UPLSAPO40XS和 UPLSAPO60XS" border="0" hspace="0" vspace="0" alt="UPLSAPO30XS,UPLSAPO40XS和 UPLSAPO60XS" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="line-height: 19px;"><br></strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="line-height: 19px;">适用于IPS / ES和悬浮细胞观察的特殊物镜</strong></p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;">该款高数值孔径的相衬物镜 (UCPLFLN20XPH) 特别适合进行使用塑料器皿的观察。它可以对细胞增殖过程进行高分辨率观察,并提高整个视场内的反差。</p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;">适用于IPS / ES和悬浮细胞观察的特殊物镜</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/6433119.jpg" title="悬浮细胞" width="200" height="126" border="0" vspace="0" alt="悬浮细胞" style="border-width: 0px; border-style: initial; max-width: 725px; width: 200px; height: 126px;"> <img src="https://www.tengrant.com/upLoad/image/20200605/9798231.jpg" title="UCPLFLN 20X" width="200" height="126" border="0" vspace="0" alt="UCPLFLN 20X" style="border-width: 0px; border-style: initial; max-width: 725px; width: 200px; height: 126px;"> <img src="https://www.tengrant.com/upLoad/image/20200605/1946302.jpg" width="200" height="126" title="悬浮细胞" alt="悬浮细胞" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 200px; height: 126px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">诱导多能干细胞的Nanog基因表达(绿色荧光蛋白) 图像数据来源: Tomonobu Watanabe, Ph.D. Laboratory for Comprehensive Bioimaging,RIKEN Quantitative Biology Center<br></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="line-height: 19px;"><br></strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="line-height: 19px;">明亮且均匀的荧光照明</strong></p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;">奥林巴斯倒置显微镜IX83荧光照明器装置 (IX3-RFALFE) 采用了复眼透镜系统,可以提供分布均匀的照明光。它可以使整个视场,包括视场的周边区域的照明明亮且均匀分布。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/4664732.jpg" width="300" height="209" title="配备复眼透镜系统" alt="配备复眼透镜系统" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 300px; height: 209px;"> <img src="https://www.tengrant.com/upLoad/image/20200605/4849302.jpg" title="无复眼透镜系统" alt="无复眼透镜系统" width="300" height="189" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 300px; height: 189px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">配备复眼透镜系统 无复眼透镜系统</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="line-height: 19px;"><br></strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="line-height: 19px;">高信噪比的荧光激发镜组可以有效检测信号</strong></p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;">所有荧光激发镜组都配备有经过专门开发的涂层处理滤色片,该滤色片可以吸收99%以上的杂散光,大程度地降低了噪声。荧光激发镜组的优异性能和高透光率保证了对荧光信号的高效检测。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/8003065.jpg" title="传统荧光激发镜组采集的图像" width="200" height="126" border="0" vspace="0" alt="传统荧光激发镜组采集的图像" style="border-width: 0px; border-style: initial; max-width: 725px; width: 200px; height: 126px;"> <img src="https://www.tengrant.com/upLoad/image/20200605/8563917.jpg" title="新型荧光激发镜组采集的图像" width="200" height="126" border="0" vspace="0" alt="新型荧光激发镜组采集的图像" style="border-width: 0px; border-style: initial; max-width: 725px; width: 200px; height: 126px;"> <img src="https://www.tengrant.com/upLoad/image/20200605/2955396.jpg" title="使用新的FL镜单元拍摄的图像" width="200" height="126" border="0" vspace="0" alt="使用新的FL镜单元拍摄的图像" style="border-width: 0px; border-style: initial; max-width: 725px; width: 200px; height: 126px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">传统荧光激发镜组采集的图像 新型荧光激发镜组采集的图像 使用新的FL镜单元拍摄的图像</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><br></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">直观的人体工程学显微镜控制</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">智能控制</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong>通过单点触摸切换观察方法</strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">Olympus IX83搭载的触摸屏控制器使用户可以轻松地操作显微镜上所有的电动功能。其中包括指定物镜倍率光强管理调节等功能。通过与cellSens软件配套使用,触控面板控制器可以启用高级定制。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/4459699.jpg" title="IX83触摸屏控制器" alt="IX83触摸屏控制器" width="500" height="315" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 315px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">IX83触摸屏控制器</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="line-height: 19px;"><br></strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="line-height: 19px;">ZDC</strong><strong style="line-height: 19px;">单次对焦功能实现快速自动聚焦,亦适用于高倍率观察</strong></p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;">使用新型的触摸屏控制器可以进行独立于软件的IX3-ZDC自动聚焦和追踪锁焦。自动聚焦功能满足细胞安全和近红外激光支持的搜索功能,即使在高倍率物镜观察条件下,用户也可以对标本进行即时自动对焦。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/3321378.jpg" width="500" height="315" border="0" vspace="0" title="ZDC单次对焦功能实现快速自动聚焦" alt="ZDC单次对焦功能实现快速自动聚焦" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 315px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">ZDC单次对焦功能实现快速自动聚焦,亦适用于高倍率观察</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="text-indent: 2em;">直观的显微镜和XY载物台控制器</strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">奥林巴斯倒置显微镜IX83 U-MCZ聚焦模块与XY载物台控制器保留了传统的手柄操作方法,即使在较暗的工作室环境中,用户也可以凭直觉操作显微镜。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/6506452.jpg" title="直观的显微镜和XY载物台控制器" width="500" height="314" border="0" hspace="0" vspace="0" alt="直观的显微镜和XY载物台控制器" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong><br></strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong>已存储的显微镜配置 (Olympus cellSens)</strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">该系统集成一个电动部件和编码型部件位置的读出器,因此可以将显微镜配置连同图像数据一起保存。使用这种系统可以再调用各种设置来重新创建所需的成像条件,从而实现成像系统高重复性和易用性。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/1808423.jpg" width="500" height="314" title="Olympus cellSens" alt="Olympus cellSens" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">Olympus cellSens</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><span style="text-indent: 2em;">易操作设计</span></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong>在高倍率条件下实现可靠的显微追踪</strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">该IX3 -SVR手动载物台的特色是配备有顺畅的定位系统,使得即使在高倍率条件下,也可以轻松地追踪细胞。用户可以手动设定移动限位固定载物台,以免进行重要试验时无意地改变载物台。此外,也可以从载物台上卸下35毫米培养皿,将它们放置在培养箱中,然后把它们准确地放回先前已确定的位置。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/8885817.jpg" width="500" height="314" title="易操作设计" alt="易操作设计" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">这一特色是根据RIKEN BSI-Olympus 合作中心的技术发展成果制作而成。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong><br></strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong>轻易实现柯勒照明</strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">使用前置聚光镜限位锁和控制旋钮可以改变聚光镜位置,并轻松地重置柯勒照明。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/9702238.jpg" width="500" height="314" title="轻易实现柯勒照明" alt="轻易实现柯勒照明" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong><br></strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong>配备防污装置,大程度地减少光学系统污染</strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">物镜转盘下方配备有防污装置,从而大程度地降低了溢出的液体对显微镜造成污染和破坏的可能性。该特性还简化了维护工作。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/5883253.jpg" width="500" height="314" title="配备防污装置,最大程度地减少光学系统污染" alt="配备防污装置,最大程度地减少光学系统污染" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><br></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">可以轻松采集时间序列图像</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">iX3系统采用了新的镜架结构和聚焦驱动设计,刚性得到增强,从而减少了振动和热量对观察工作的影响。它可以保持沿X轴、Y轴和Z轴方向上所需的定位,使时间序列成像更加可靠。 <br>实时Z轴防漂移补偿系统 (IX3-ZDC) 与Olympus超声载物台 (能够实现多点成像) 配套使用时,能够在采集多位置高精度的图像时始终锁焦和精确定位。此外,也可以使用箱式和载物台式细胞培养装置,保证在进行时间序列实验时保持细胞的活力。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/1204587.jpg" title="可以轻松采集时间序列图像" width="200" height="126" border="0" hspace="0" vspace="0" alt="可以轻松采集时间序列图像" style="border-width: 0px; border-style: initial; max-width: 725px; width: 200px; height: 126px;"> <img src="https://www.tengrant.com/upLoad/image/20200605/5717771.jpg" title="可以轻松采集时间序列图像" width="200" height="126" border="0" vspace="0" alt="可以轻松采集时间序列图像" style="border-width: 0px; border-style: initial; max-width: 725px; width: 200px; height: 126px;"> <img src="https://www.tengrant.com/upLoad/image/20200605/9267454.jpg" title="可以轻松采集时间序列图像" width="200" height="126" border="0" vspace="0" alt="可以轻松采集时间序列图像" style="border-width: 0px; border-style: initial; max-width: 725px; width: 200px; height: 126px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><br></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><span style="text-indent: 2em;">成像精确度</span></p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;"><strong>Z</strong><strong>轴漂移补偿系统</strong></p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;">该IX3-ZDC采用低光毒性的红外 (IR) 光,可检测用户设置的正确聚焦位置。在多位置Z轴序列成像时,单次自动对焦模式允许按照预期设置多个聚焦位置实现高效率成像。连续对焦模式可以保持对所需观察平面的精确聚焦,避免了由于温度变化或添加试剂导致的焦点漂移现象。它是敏感应用的绝佳选择,如TIRF。</p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;"><img src="https://www.tengrant.com/upLoad/image/20200605/9254820.jpg" title="Z轴漂移补偿系统" alt="Z轴漂移补偿系统" width="300" height="189" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 300px; height: 189px;"> <img src="https://www.tengrant.com/upLoad/image/20200605/1719434.jpg" title="Z轴漂移补偿系统" alt="Z轴漂移补偿系统" width="300" height="189" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 300px; height: 189px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><br></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="line-height: 19px;">高精度的IX3用超声波载物台 (IX3-SSU)</strong></p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;">超声波载物台具有低的热漂移和高精度等特性,在采集多图像方面具有优良的可靠性。标本固定夹可以牢牢地固定玻片或培养皿,以确保在进行高倍率的多点观察时的准确重复性。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/8665129.jpg" title="IX3-SSU" width="300" height="189" border="0" vspace="0" alt="IX3-SSU" style="border-width: 0px; border-style: initial; max-width: 725px; width: 300px; height: 189px;"> <img src="https://www.tengrant.com/upLoad/image/20200605/8104277.jpg" title="IX3-HOW-2, IX3-HOS and IX3-HO35D" width="300" height="188" border="0" vspace="0" alt="IX3-HOW-2, IX3-HOS and IX3-HO35D" style="border-width: 0px; border-style: initial; max-width: 725px; width: 300px; height: 188px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">IX3-SSU IX3-HOW-2,IX3-HOS and IX3-HO35D</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="line-height: 19px;"><br></strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="line-height: 19px;">cellSens</strong><strong style="line-height: 19px;">软件实现高效的多图像采集</strong></p><p style="margin-top: 8px; margin-right: auto; margin-left: auto; line-height: 19px; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px; background: white;">使用<a href="http://www.tengrant.com/content/?454.html" target="_blank" style="margin-right: auto; margin-left: auto; color: rgb(0, 112, 192); border-bottom: 1px dashed rgb(0, 78, 162);"><strong>cellSens软件</strong></a>控制IX3超声波载物台可以更有效地执行多区域时间序列成像操作。在每个孔中进行相邻视野的多点细胞动态成像,可进行大视场的时间序列成像,以在同一个实验中获取更多的数据。超声波载物台出色的精确度和可重复性让您可以通过cellSens软件轻松采集无缝拼接图像。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/1536237.jpg" title="cellSens软件实现高效的多图像采集" width="300" height="189" border="0" vspace="0" alt="cellSens软件实现高效的多图像采集" style="border-width: 0px; border-style: initial; max-width: 725px; width: 300px; height: 189px;"> <img src="https://www.tengrant.com/upLoad/image/20200605/6768476.jpg" title="cellSens软件实现高效的多图像采集" width="300" height="189" border="0" vspace="0" alt="cellSens软件实现高效的多图像采集" style="border-width: 0px; border-style: initial; max-width: 725px; width: 300px; height: 189px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong><br></strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong>奥林巴斯倒置显微镜IX83</strong><strong>用电动DIC滑块</strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">用户可通过电动IX3-DICTA在不干扰标本的情况下启用并调节DIC。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/1645139.jpg" title="IX3-DICTA" width="500" height="314" border="0" hspace="0" vspace="0" alt="IX3-DICTA" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><br></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">可更替的模块提供了灵活的成像方式</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">Olympus IX3显微镜系统可以与多种模块配套使用,实用性更强,既可以进行随意的观察,也可以完成高端的成像操作。采用简易盒式设计的光路系统可以轻松地插入式安装荧光激发块转盘、右光口、mag 转换器、epi照明器和其它装置等。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/2668241.jpg" width="500" height="314" title="可更替的模块提供了灵活的成像方式" alt="可更替的模块提供了灵活的成像方式" border="0" vspace="0" style="text-indent: 2em; border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><br></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">大型开放式镜架使得可以将电动发射滤色片转轮安装在显微镜的扩展空间内。这避免了图像在通道之间发生偏移,并能够通过目镜查看相机采集到的图像。自动或手动右光口模块提供了另一个灵活的相机安装方案。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/9937346.jpg" width="500" height="314" title="大型开放式镜架" alt="大型开放式镜架" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><br></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">层光路装置/高速装置</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong>电动荧光激发镜组转盘 (IX3-RFACA)</strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">可以搭载8个荧光激发镜组的无咯噔限位转盘可以顺畅快速的转动。此转盘可以容纳25毫米或33毫米直径的滤色片装置,无需使用工具即可轻松更换。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/1346173.jpg" title="IX3-RFACA" alt="IX3-RFACA" width="300" height="189" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 300px; height: 189px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong>IX3-RFACA</strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong><br></strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong>C</strong><strong>型电动/手动右光口 (IX3-RSPCA/IX3-RSPC)</strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">C型接口的右光口可以配备两个荧光激发镜组,以便执行如分屏成像等高级应用。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/1560407.jpg" width="500" height="314" title="IX3-RSPCA" alt="IX3-RSPCA" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">IX3-RSPCA</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="text-indent: 2em;">编码型中间变倍体 (IX3-CAS)</strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">通过调节拉杆,可以轻松地在1×、1.6×和2×之间切换倍率。此外,该系统是编码型系统,可以将中间倍率信息与图像数据一起保存。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/8732557.jpg" width="500" height="314" title="编码型中间变倍体 (IX3-CAS)" alt="编码型中间变倍体 (IX3-CAS)" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">IX3-CAS</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="text-indent: 2em;">电动快速滤色片转轮和光闸</strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">使用Olympus 滤色片转轮可以轻松实现毫秒级滤色片切换。奥林巴斯光闸操作则更加迅速。IX83能够控制多达六个滤色片转轮和四个光闸,因此能够实现复杂的多元化成像。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/5429243.jpg" width="500" height="314" title="电动快速滤色片转轮和光闸" alt="电动快速滤色片转轮和光闸" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><br></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">荧光系统</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong>专用荧光照明器</strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">奥林巴斯倒置荧光显微镜ix83这是一款适合各种应用的照明器装置。配备有复眼透镜系统的L型荧光照明器装置IX3-RFALFE可以实现明亮均匀的照明,而且无需进行光路校准。标准的L形荧光照明器装置 IX3-RFAL具有高性价比,并配有视场光阑和孔径光阑,而直型荧光照明器装置IX3-RFA非常适合进行需要强烈激发光的应用操作。种类多样的光源可供选择,包括同时兼容100W汞灯和76W氙灯照明的台面和镜架安装部件(汞和氙)。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/2344282.jpg" width="500" height="314" title="专用荧光照明器" alt="专用荧光照明器" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">1.U-LH100HG, 2.U-LH75XEAPO,3.U-LH100HGAPO, 4.U-HGLGPS, 5.IX3-RFA, 6.U-LLGAD, 7.IX3-RFAL, 8.IX3-RFALFE</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="text-indent: 2em;">长寿命130W汞灯 (U-HGLGPS)</strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><a href="http://www.tengrant.com/content/?359.html" target="_blank" style="margin-right: auto; margin-left: auto; color: rgb(128, 130, 133); border-bottom: 1px dashed rgb(0, 78, 162);"><strong>U-HGLGPS</strong></a>荧光光源可以提供明亮均匀的照明,并且汞灯灯泡的使用寿命长,平均寿命达2000小时。此部件免维护而且不需要进行对中调节。液体光导可以防止热量传输标本上,使用户可以放心地进行长时间的观察。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/2562772.jpg" width="500" height="500" title="130W光纤传导汞灯 (U-HGLGPS)" alt="130W光纤传导汞灯 (U-HGLGPS)" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 500px;"></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">130W光纤传导汞灯 (U-HGLGPS)</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><strong style="text-indent: 2em;">在用于激发辐照度计/IX3-EXMAD*的成像适配器中,所测量到的激发光强度具有高度的重复性。</strong></p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;">奥林巴斯现在为功率计提供了一个适配器以便可以直接测量标本每单位表面积的激发光强度,并提供辐照度显示软件。在监控器上显示测量结果,记录数据,不再需要费力计算。这样就可以在开始实验前检查激发光强度,提高实验的可靠性。数据也可以轻松地共享。 <br>*本设备是基于日本理化研究所BSI-Olympus协作中心技术开发的。</p><p style="margin: 8px auto; line-height: 1.8em; text-indent: 2em; font-family: "Microsoft YaHei"; font-size: 12px;"><img src="https://www.tengrant.com/upLoad/image/20200605/5326933.jpg" width="500" height="314" title="IX3-EXMAD" alt="IX3-EXMAD" border="0" vspace="0" style="border-width: 0px; border-style: initial; max-width: 725px; width: 500px; height: 314px;"></p>
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