Title :
Benefits of differential detection for nanoplasmonics
Author :
Ptasinski, Joanna ; Pang, Lin ; Sun, Pang ; Slutsky, Boris ; Fainman, Yeshaiahu
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of California, San Diego, La Jolla, CA, USA
Abstract :
Here we describe a differential intensity interrogation method, where two measurements of the DTF are made simultaneously at unequal incident angles, and their difference is constructed. The zero crossing of the difference signal can be tracked with a tunable light source in a closed-loop system, similarly to the way in which beam position is tracked using quadrant detectors, resulting in an accurate and robust measurement. Our device also utilizes a metal film perforated with a 2-D array of nanoholes, as in Tetz et al. With this technique, SPP resonance can be achieved at normal or near-normal incidence, permitting measurement over a large area not limited by the focal depth of the imaging optics. The area can then be segmented into independent measurement channels, boosting device throughput.
Keywords :
bioMEMS; biosensors; lab-on-a-chip; nanofluidics; nanosensors; optical sensors; patient diagnosis; polaritons; surface plasmon resonance; 2D nanohole array; DTF measurements; SPP resonance; closed loop system; device transfer function; difference signal zero crossing; differential detection; differential intensity interrogation method; metal-dielectric layer chips; nanoplasmonics; perforated metal film; quadrant detectors; surface plasmon polariton; tunable light source; Detectors; Laser beams; Measurement by laser beam; Optical surface waves; Plasmons; Sensitivity; Wavelength measurement;
Conference_Titel :
Winter Topicals (WTM), 2011 IEEE
Conference_Location :
Keystone, CO
Print_ISBN :
978-1-4244-8428-7
DOI :
10.1109/PHOTWTM.2011.5730060
