Andor cameras help break sub-nanometer optical resolution barrier
Belfast 29 July 2010 - Two back-illuminated Andor EMCCD cameras have been instrumental in helping a leading US research team re-draw the boundaries of optical microscopy1. One of the cameras was an Andor iXon+ 860, which is capable of acquiring images at 500 frames per second; the other was a highly sensitive iXon+ 897 model that can capture individual photons from single fluorescence emitters.
By developing an active feedback system, Alexandro Pertsinidis, Yunxiang Zhang and Steven Chu, a Nobel laureate and currently appointed Energy Secretary for the United States of America, were able to repeatedly place the centroid of a single fluorescent molecule image anywhere on either of the camera’s CCD arrays and measure its position with sub-pixel accuracy. This means, that in conjunction with additional optical beams to stabilise the microscopy system, the traditional errors caused by non-uniformity of chip manufacture can be reduced to sub-nanometre scale.
As a result, the team were able to develop a two colour, single molecule imaging system, which achieved image resolutions with an order of magnitude greater than the current best super resolution techniques (5 nm).
Gaining the ability to resolve single molecules at this level has significant implications for biological research, where it should allow the structure of large, multi-subunit complexes to be analysed at the single molecule level.
Chu and his colleagues are planning to harness the new technique to learn more about the human RNA polymerase II system, which initiates the transcription of DNA, and the molecular mechanisms controlling cell-to-cell adhesion processes.
The resolving power of this new super resolution technique may also be of great use in guiding the design of new photometric imaging systems in scientific fields such as nanometrology, atomic physics and astronomy.
Reference 1: Pertsindis, A., Zhang, Y., Chu, S., Subnanometre single-molecule localization, registration and distance measurements. Nature doi:10.1038/nature09163 (2010)
About Andor
Andor enables its customers to break new ground by performing light measurements previously considered impossible. Andor is a world leader in low light imaging with a portfolio spanning high-performance scientific digital cameras, spectrographs, and microscopy confocal and white light systems. Andor now counts over 250 employees in 17 offices worldwide, offering over 70 products to 10,000 scientific research and OEM customers, and acquired Bitplane in 2009 and Photonic Instruments in 2010. Andor Technology is quoted on the AIM market of the London Stock Exchange (LSE: AND).
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Belfast 29 July 2010 - Two back-illuminated Andor EMCCD cameras have been instrumental in helping a leading US research team re-draw the boundaries of optical microscopy1. One of the cameras was an Andor 
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