Top Tweets for #MicroscopyU
🔬 Resolution - the defining factor of how much detail you can actually see.
📃 This #MicroscopyU article breaks it down, and the interactive tutorial shows how objective numerical aperture size influences Airy disk properties.
👉 Take a closer look: https://t.co/wcz9AT9p6q
Looking for a one-stop shop for educational optical #microscopy resources? Then click to check out our #MicroscopyU website, which covers everything from the fundamentals to advanced techniques such as #confocal and #superresolution: https://t.co/F2rRaFM5wl
Phase contrast #microscopy is a useful for generating contrast with near-transparent samples, such as cells. However, performance depends on phase contrast objective lens selection and proper alignment. See our #MicroscopyU article for more information: https://t.co/1ooGLFOMbj

The interference of light is a fundamental concept in optical #microscopy, from various polarized light-based imaging techniques, to the design of interference fluorescence filters, and so much more. Check out our #MicroscopyU article to learn more: https://t.co/mYAOMetdwX

Check out this #MicroscopyU introduction to fluorescent protein technology, including basic biochemistry, types of variants, and more:
https://t.co/INc7wzWmWX

The Nikon Oblique Coherent Contrast (OCC) illuminator provides variable-angle oblique illumination for many of our SMZ stereomicroscopes, rendering specimens with a pseudo-3D appearance. Check out our interactive #MicroscopyU tutorial to learn more: https://t.co/v2KB656pVl

Optical path length (OPL) is calculated by multiplying the path length by the refractive index of the medium. Differences in OPL can be visualized using interference-based techniques such as phase contrast #microscopy. Check out our #MicroscopyU tutorial: https://t.co/023hPymg0V

Want to get up to speed on #superresolution single molecule localization #microscopy #SMLM techniques such as STORM and DNA-PAINT? Our #MicroscopyU article takes a deep look at this subject, including imaging probes and buffer systems: https://t.co/38cs88JsD7

Numerical aperture #NA is unit-less value that defines the resolving power of a microscope objective. Check out our #MicroscopyU article ‘Numerical Aperture’ to learn more, including how to calculate this value: https://t.co/6zEFwtGUqO
#microscopy

Want to get up to speed on #stereomicroscopy? Then check out our #MicroscopyU article, which explores topics such as the differences between Greenough and common main objective designs. #microscopy https://t.co/QJiNxt7pwM
Are you new to #microscopy and looking to get up to speed on objective lenses? Then check out our #MicroscopyU article ‘Introduction to Microscope Objectives’! We take a look at lens specifications, optical aberrations, and other important considerations. https://t.co/wWAmoTbEv9
Looking for some help understanding the differences between linear, elliptical, and linearly polarized light? Then click to check out our interactive #MicroscopyU tutorial! https://t.co/rKVXe7BkKX
The polarization state of light depends on the phase difference between its ordinary and extraordinary rays, resulting in linear, circular, or elliptical polarization. Click to check out our interactive #MicroscopyU tutorial to learn more. #microscopy https://t.co/JjS1JdipQS
Did you know that a simple lens does not form a flat image of a flat object? Curvature of field is an important optical aberration and the reason for “Plan” corrected objectives. Click to check out our interactive #MicroscopyU tutorial and learn more. https://t.co/9m7N5p6vAJ
Looking to get up to speed on #lightsheet #fluorescence #microscopy? Then click to check out our #MicroscopyU article to learn how this family of illumination techniques enables fast/gentle 3D imaging of various samples, including whole model organisms. https://t.co/mUHGogjjaX
Check out our interactive #MicroscopyU tutorial ‘Birefringence in Calcite Crystals’ to learn how birefringent materials affect light and are able to form double images. #microscopy https://t.co/DDdQuuJBZd
Did you know that your microscope contains two sets of conjugate focal planes? Our #MicroscopyU article introduces this fundamental concept, which is important for understanding image formation and proper adjustment of diaphragms and other components. https://t.co/fDRStwWuH6
#Confocal #microscopy continues to be a top imaging technique for bioscience research. Check out our #MicroscopyU article ‘Introductory Confocal Concepts’ to get up to speed on the basics of this important technique. https://t.co/tB448lBoLq
Do you need extra-long working distance microscope objective lenses for your work? If so, what tradeoffs can you expect with respect to numerical aperture and other important factors? Click to check out our #MicroscopyU article about working distance. https://t.co/JbsEcfxKha
Refractive index is the ratio of the speed of light in a vacuum to that in a given medium, a fundamental concept in #microscopy. It affects the choice of objective lens/mounting medium among other concerns. Check out our #MicroscopyU article to learn more. https://t.co/hnW5hfMl5A
Last Seen Hashtags on Sotwe
Most Popular Users

Elon Musk 
@elonmusk
240.7M followers

Barack Obama 
@barackobama
119.2M followers

Donald J. Trump 
@realdonaldtrump
111.7M followers

Cristiano Ronaldo 
@cristiano
110.7M followers

Narendra Modi 
@narendramodi
107M followers

Rihanna 
@rihanna
97.7M followers

NASA 
@nasa
92.2M followers

Justin Bieber 
@justinbieber
90.9M followers

KATY PERRY 
@katyperry
87.7M followers

Taylor Swift 
@taylorswift13
81.6M followers

Lady Gaga 
@ladygaga
73.1M followers

Virat Kohli 
@imvkohli
70M followers

Kim Kardashian 
@kimkardashian
69.8M followers

YouTube 
@youtube
68.7M followers

Bill Gates 
@billgates
63.9M followers

Neymar Jr 
@neymarjr
62.7M followers

The Ellen Show
@theellenshow
62.4M followers

CNN 
@cnn
61.9M followers

X 
@x
60.8M followers

Selena Gomez 
@selenagomez
60.8M followers
