This work is focused on the study and implementation of a novel method for the development of probes for Scanning Near-field Optical Microscopy (SNOM). The proposed approach is based on the mechanical impedance matching between the optical fiber tip and the resonating tuning fork. This methodology allowed an increase of the quality factor of the piezoelectric resonator used as atomic force transducer in the SNOM probe, thus increasing its overall sensitivity. This kind of probes are often used on biological soft samples in liquid. The presence of water medium has a strong dumping effect on probe sensitivity. Experimental validation of the proposed methodology showed an increase of robustness of SNOM probes also for in liquid samples.
Development of a Novel Snom Probe for in Liquid Biological Samples
ARMANI, FRANCESCO;BOSCOLO, ANTONIO;BRESSANUTTI, Massimo;DALLE FESTE, MARCO;PIUZZI, BARBARA;DE VECCHI, ALESSANDRO;VIVIANI, EMANUELE;ZWEYER, MARINA
2015-01-01
Abstract
This work is focused on the study and implementation of a novel method for the development of probes for Scanning Near-field Optical Microscopy (SNOM). The proposed approach is based on the mechanical impedance matching between the optical fiber tip and the resonating tuning fork. This methodology allowed an increase of the quality factor of the piezoelectric resonator used as atomic force transducer in the SNOM probe, thus increasing its overall sensitivity. This kind of probes are often used on biological soft samples in liquid. The presence of water medium has a strong dumping effect on probe sensitivity. Experimental validation of the proposed methodology showed an increase of robustness of SNOM probes also for in liquid samples.| File | Dimensione | Formato | |
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DEVELOPMENT OF A NOVEL SNOM PROBE FOR IN LIQUID.pdf
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