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New microscope not in your budget? Not to worry. In this blog post, we share 5 cost-effective ways to boost the performance of your older microscope and extend its working life.
Our renowned optics are integrated into many advanced microscope and imaging systems. In this post, learn how our X Line objectives are improving single-molecule sensitivity in confocal microscope design.
Optimizing Your Oblique Observation Using Our Flexible Contrast Solution
Free Webinar: Best Practices for Clinical Microscopy Cameras
这篇博文解答了关于暗场显微观察的常见问题。
Aptly named ‘Neurogarden’ for its garden-like architecture of neurons, this vibrant image won our 2019 IOTY global prize. In this blog post, the microscopist behind the images shares how she captured the winning image.
In this blog post, our 2019 Image of the Year content winner for the Asia Pacific region shares the details of the technique he used to capture his award-winning image.
Comparative analysis between human iPS cell lines with CM20: Observational approach in the process of differentiation into iPS cell-derived liver organoids
In this blog, learn how an Olympus customer uses microscopes to study hearing loss at a molecular level to find a way to reverse it.
Astronomers striving to see distant galaxies motivated the invention of a technology now used to observe the microscopic universe. Learn how in this blog post.
在确保显微镜的优质性能方面,高质量的光学部件至关重要。敬请阅读这篇博客文章,了解为什么要获得高质量的图像,必须使用波前像差得到了控制的物镜。
Dynamic Volumetric Imaging with the FV3000RS Confocal Microscope
In this app note, learn how the FV3000RS microscope was used to study the actin dynamics of a fungal spore responsible for infecting wheat and corn to help develop ways to prevent the disease.
In this blog post, we share 5 lessons learned from a year of using artificial intelligence for life science research.
Our 2019 Global Image of the Year EMEA regional winner, Alan Prescott, reveals how he captured his winning fluorescence image “The Mouse’s Whiskers” in this blog post.
Read how researchers at the Max Planck Institute in Germany are using the VS200 slide scanner to investigate the regenerative capabilities of Schmidtea mediterranea.
In this blog post, we explore how 2019 IOTY Americas regional winner Tagide deCarvalho’s dual passions for science and art enabled her to capture a stunning image of a tardigrade.
Webinar: Customized Assays Made Easy with scanR TruAI
Catching up on delayed experiments when returning to the lab is an important consideration. In this blog post, we share 5 practical tips to help accelerate your experiments!
随着越来越多的科学家为了遵守社交距离的规定而在家办公,实验室也在做出相应的调整,以充分利用远程平台。在这篇博客中,我们分享了6个技巧,助力您成功进行远程显微镜观测!
In this app note, we present the results from an experiment that demonstrates the power of AI and self-learning microscopy to quantify transmigration using simple phase contrast images.
Observing a Vascularized Tumor Spheroid on a Chip with a Confocal Microscope
自动化活细胞显微镜系统有助于实验室人员在保持社交距离的同时,保证自身的安全和高水平的生产力。在这篇博客中,我们探讨了4个有助于实现长时活细胞成像的技巧。
奥林巴斯继续寻找2020年最佳光学显微镜图像。
As light sheet microscopy become increasingly popular, scientists are using it to push the boundaries of life science research. Learn about some of that groundbreaking research in this blog post.
DAPI illumination got you feeling burned? In this blog post, learn how TruAI technology enables easy label-free nucleus detection.
无论在这一学年中您要进行的是远程教学,面对面教学,还是两者兼而有之的混合型教学,您都可以在课程中借助显微镜完成教学工作。这篇博客中列出的一些小窍门,说明了如何在教学过程中正确使用显微镜。
Cell Quality Evaluation with the CM20 Incubation Monitoring System : Improve the Reproducibility of Experiments through the Characterization of Cells
Many cell culture processes still rely on visual observation with a microscope—a qualitative evaluation method. Learn how switching to a quantitative approach can benefit your cell culture process in this blog post.
How the CM20 Improves the Cell Culture Process with Quantitative Data
Innovative Cell Observation Technology which Enabled CM20's Compact Design
VS200 software updated: Version 3.2, TruAI deep-learning
From multimode imaging to fluorescence multiplexing, this blog post is your guide to extracting rich data from your experiments.
Fluorescence microscopy is a popular technique, but it has limitations. In this blog post, we discuss alternative imaging methods to help you think beyond fluorescence and expand your research capabilities.
奥林巴斯的3.2版本scanR高内涵筛选工作站提高了图像的质量
Find out why the “game-changing” X Line objectives were chosen as an Edison Gold Award winner in this blog post.
In this blog post, learn about innovations in 3D and 4D microscopy that give the Ellison Institute’s founding director confidence that the next major leap in cancer research is just around the corner.
USC-Olympus Partnership in Multiscale Bioimaging Furthers Precision Medicine
Fluorescence imaging requires a balance between the signal-to-noise ratio and minimizing phototoxicity. Discover tips on how to strike that balance in this blog post.
Analysis Workflow for 3D Live/Dead Cell Assays
Viruses can remain infectious on surfaces for hours to days, so cleaning and disinfecting your microscope should be part of your routine. Check out these cleaning tips in this blog post.
Digitizing Slides Using a Manual Microscope and Digital Camera
cellSens software updated: Version 3.1, TruAI based on deep learning
Olympus TruAI for Quantitative Analysis of Fluorescently Labeled Cells with Ultra-Low Light Exposure
Olympus TruAI for Highly Robust Label-Free Nucleus Detection and Segmentation in Microwell Plates
Perform Accurate and Efficient Microscopy Image Analysis Using TruAI based on Deep Learning
Mapping Aortic Valve Cells Using the FLUOVIEW FV3000 Microscope
Tips for 3D Spatial Analysis of High-Content Drug Screening
Check out this blog post to see the winning images from our 2019 Global Image of the Year contest.
Announcing the winners of the Olympus Image of the Year Award 2019.
Do you have questions about microscope digital imaging? We've got answers in these FAQs.
奥林巴斯应对COVID-19
奥林巴斯可以确保在发生灾难之时制定应急计划,以尽最大努力减少业务中断,并使业务持续运转。
3D Spatial Analysis of High-Throughput Drug Screening
High-Resolution Imaging of Bone Cell Interactions
Discover commonly used transmitted light observation methods, including their features and applications, in this blog post.
Understanding the Link Between Digital Image Data and Biological Samples
Selective Isolation of Adherent Single Cells
Selective Isolation of Living Cells for Omics Analysis
Optimizing Image Acquisition for High-Throughput 3D Analysis of Cancer Spheroids
In this blog, we discuss two smart ways to use reflectance confocal imaging.
Fluorescence live cell imaging can be tricky. In this blog post, our expert gives you 6 tips to help you get reliable image data.
Curious about objectives? Check out this blog post where we break down the anatomy of an objective lens into easy-to-understand terms.
Multiplexing with the FV3000 Confocal Microscope
The Importance of Tissue Clearing and Objective Selection in 3D Analysis of Spheroids
Confused about what to consider when equipping a classroom lab? Get advice from our expert in this blog post.
New near-infrared lasers make our FV3000 confocal microscope even more powerful. Learn how in this blog post.
OLYMPUS Provi CM20 Incubation Monitoring System with cell count and confluency analysis to improve the regenerative medicine workflow
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