The 2014 Nobel Prizes: Switched at Birth?

I was thrilled yesterday morning to learn that super-resolution microscopy is the subject of a Nobel Prize this year. (Or more accurately, that Eric Betzig, Stefan Hell, and William E. Moerner were awarded the Nobel Prize “for the development of super-resolved fluorescence microscopy.”) Super-resolution microscopy is wonderful, as I’ve written before. In all its various … Continue reading The 2014 Nobel Prizes: Switched at Birth?

I should think of a title involving the words “Small” and “Microscopy”

Our Physics Department Colloquium this week is on a topic I’m fond of: the analysis of super-resolution microscopy images. This occurrence isn’t surprising, since I invited the speaker, Alex Small, with whom I co-wrote a recent review paper on the subject. The problem that superresolution microscopy confronts is that it’s hard to see tiny things. … Continue reading I should think of a title involving the words “Small” and “Microscopy”

Stop, thieves!

I spent much of the morning being livid, after stumbling on a paper. First, some background: In 2012, I published a paper in Nature Methods that introduced and described a new algorithm for rapidly and accurately determining the location of particles in images — something that’s very important to super-resolution microscopy, measuring fluid properties using … Continue reading Stop, thieves!

Orbitz!

A theme shared by all the experiments in my lab is that images contain information about the physical properties of materials. One of my students gave a talk on Monday about his work exploring the fluid environment experienced by swimming microbes (see my earlier post on the microbiome). Planning it beforehand, we were thinking of … Continue reading Orbitz!