Laser makes microscopes way cooler

Laser makes microscopes way cooler
PhD students Giovanni Guccione (L) and Harry Slatyer examine their gold-coated silver gallium nanowire in the Quantum Optics labs. Image: Quantum Optics Group, ANU

(Phys.org) —Laser physicists have found a way to make atomic-force microscope probes 20 times more sensitive and capable of detecting forces as small as the weight of an individual virus.

The technique, developed by researchers in the Quantum Optics Group of the Research School of Physics and Engineering, hinges on using to cool a nanowire to minus 265 degrees Celsius.

"The level of sensitivity achieved after cooling is accurate enough for us to sense the weight of a large virus that is 100 billion times lighter than a mosquito," said Professor Ping Koy Lam, the leader of the Quantum Optics Group.

The development could be used to improve the resolution of atomic-force microscopes, which are the state-of-the-art tool for measuring nanoscopic structures and the tiny forces between molecules.

Atomic force microscopes achieve extraordinarily sensitivity measurements of microscopic features by scanning a wire probe over a surface.

However, the probes, around 500 times finer than a , are prone to vibration.

"At room temperature the probe vibrates, just because it is warm, and this can make your measurements noisy," said Dr Ben Buchler, a co-author of the research that is published in Nature Communications.

"We can stop this motion by shining lasers at the probe," he said.

Laser makes microscopes way cooler
The silver gallium nanowire is 500 times finer than a human hair. Image: Quantum Optics Group, ANU

The force sensor used by the ANU team was a 200 nm-wide silver gallium nanowire coated with gold.

The silver gallium nanowire is 500 times finer than a human hair. Image: Quantum Optics Group, ANU

"The laser makes the probe warp and move due to heat. But we have learned to control this warping effect and were able to use the effect to counter the thermal vibration of the probe," said Giovanni Guccione, a PhD student on the team.

However, the probe cannot be used while the laser is on as the laser effect overwhelms the sensitive probe. So the laser has to be turned off and any measurements quickly made before the probe heats up within a few milliseconds. By making measurements over a number of cycles of heating and cooling, an accurate value can be found.

"We now understand this cooling effect really well," says PhD student Harry Slatyer. "With clever data processing we might be able to improve the sensitivity, and even eliminate the need for a cooling ."


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More information: Nature Communications, www.nature.com/ncomms/2014/140 … full/ncomms5663.html
Journal information: Nature Communications

Citation: Laser makes microscopes way cooler (2014, August 15) retrieved 15 July 2019 from https://phys.org/news/2014-08-laser-microscopes-cooler.html
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