Multimedia Gallery - New sensor detects tiny individual nanoparticles

Arrays of self-referenced, self-heterodyned Whispering-Gallery Raman microlasers

March 18, 2015

New sensor detects tiny individual nanoparticles

Pictured here are arrays of self-referenced and self-heterodyned Whispering-Gallery Raman microlasers for single nanoparticle detection. A "pump" laser generates a single Raman lasing mode inside the silica resonators. Upon the landing of a nanoparticle on the resonator, a Raman laser circulating inside the resonator undergoes mode splitting, leading to two new lasing modes in different colors. Monitoring the changes in the color difference (frequency difference) enables detection and measuring of nanoparticles with single particle resolution.

The new sensor--developed by a team of researchers at Washington University in St. Louis (WUSTL), led by Lan Yang, the Das Family Career Development Associate Professor in Electrical and Systems Engineering, and collaborators at Tsinghua University in China--can detect and count nanoparticles--engineered materials about a billionth of a meter in size--at sizes as small as 10 nanometers, one at a time. The researchers say the sensor could potentially detect much smaller particles, viruses and small molecules. Funding for the research was provided by the National Science Foundation (NSF) and the U.S. Army Research Office.

Yangs microsensor is in a class called "whispering gallery" mode resonators because it works similarly to the renowned whispering gallery in Londons St. Pauls Cathedral, where a person on one side of the dome can hear a message spoken to the wall by another person on the other side. Yangs device does much the same thing with light frequencies rather than audible ones.

[This research is associated with the project "Enhanced Raman and Rayleigh scattering in an ultrahigh-Q micro resonator for detection, identification and measurement of nanoparticles," supported by NSF grant CBET 12-64750.]

To read more about this research, see the WUSTL news story Engineers develop new sensor to detect tiny individual nanoparticles. (Date of Image: 2013)

Credit: Image by J. Zhu, B. Peng, S.K. Ozdemir, L. Yang, Electrical and Systems Engineering Department, Washington University in St. Louis

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