Formation of fine near-field scanning optical microscopy tips. Part II. By laser-heated pulling and bending

Articles you may be interested in Method to compensate for fluctuations in optical power delivered to a near-field scanning optical microscope Rev. Development of a polarization-preserving optical-fiber probe for near-field scanning optical microscopy and the influences of bending and squeezing on the polarization properties Rev. Formation of glass fiber tips for scanning near-field optical microscopy by sealed-and open-tube etching Rev. Influence of tip modulation on image formation in scanning near-field optical microscopy We have developed a simplified heating and pulling method for formation of near-field scanning optical microscopy probing tips from optical fibers. Laser power and continuous pulling force are two key processing parameters investigated. We found a narrow working range of laser power of 1.85–1.95 W and the pulling force of 0.5–0.9 lb, with the optimum conditions of 1.90 W and 0.74 lb. Tips with short taper ͑ϳ300 ␮m͒, small apex ͑ϳ50 nm͒, and large aperture cone angles ͑ϳ45°͒ have been achieved. The as-prepared tips are subsequently bended by pulsed laser heating and metal coating. Digitized bending from 10° to 90° can be achieved by linearly adjustment of the laser dose. The fabricated tips have shown good light guiding.