Work by A.Z. and the development of the advanced single
particle analysis methods (A.Z.) were supported by the U.S. Department of Energy, Office of Science, Office of Basic Energy Sciences, Division of Chemical Sciences, Geosciences, and Biosciences.
Not exact matches
In recent years, therefore, there has been increasing emphasis on the development of automatic image
analysis methods for
particle tracking.
In order to track the movements of biological
particles in a cell, scientists at Heidelberg University and the German Cancer Research Center have developed a powerful
analysis method for live cell microscopy images.
Although conventional flow cytometry is limited to measuring
particles down to approximately 300 nm — 500 nm, a relatively new flow - cytometric
method — called «imaging flow cytometry» — allows for the
analysis of EVs smaller than 300 nm.
The new
method simplifies this challenge by incorporating novel hardware and performing two
analyses at once:
particle localization and spectroscopy.
And given the huge volume of data involved in high energy collisions at modern day
particle accelerators physicists most certainly use principal component
analysis — or other data reduction
methods.