NOTICE: Our telephone provider is experiencing service interruptions. If you are not able to reach us by phone, please email email@example.com with your inquiry and we will get back to you as soon as possible.
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Dear Valued Stakeholder,
As we continue to monitor Coronavirus (COVID-19) developments closely, the health and well-being of our team, customers, and their employees is of utmost importance to us.
As a trusted vendor, we understand the imperative of limiting the impact this situation could have on our services. We are keenly focused on maintaining a safe work environment for our team while ensuring continuous service.
We have a robust integrated Business Resiliency Program in place and are committed to keeping our operations running smoothly.
This Plan includes:
Minimizing supply chain disruptions through constant communications with our production facilities and logistics partners
Maintaining larger stock levels of products at our distribution facility
Prioritizing orders being shipped based on the order in which they were received
Enabling work from home capabilities for our sales and support staff
Providing our team members with information and best practices to prevent the spread of any illness
Coordinating communications with our team, associates, customers and partners
Limiting all non-essential business travel
In the short term, you might experience a slightly longer than anticipated lead time for fulfilment of some the orders. Please be assured, we are taking every measure to ensure minimal disruptions or delays and continue to monitor this fluid situation on a daily basis.
Thank you for your business, and your continued support.
Super-Resolution Fluorescence Microscopy The advent of super-resolution techniques is partly due to the wave nature of light. The resolution of light microscopy is limited because light is a wave and is subject to diffraction. This diffraction limit of light microscopy, about 200–300 nm in the lateral direction and 500-700 nm in the axial direction, is larger than many subcellular structures, leaving them too small to be observed in detail. Super-resolution techniques aim at overcoming this diffraction barrier, and include techniques that employ nonlinear effects to sharpen the point-spread function (PSF) of the microscope.
Super-Resolution Fluorescence Microscopy Lasers
635 nm Collimated Diode Laser System 5 - 500 mW Output Power