论文信息 - Determination of the force constant of a single-beam gradient trap by measurement of backscattered light.

Determination of the force constant of a single-beam gradient trap by measurement of backscattered light.

A single-beam gradient trap could potentially be used to hold a stylus for scanning force microscopy. With a view to development of this technique, we modeled the optical trap as a harmonic oscillator and therefore characterized it by its force constant. We measured force constants and resonant frequencies for 1-4-μm-diameter polystyrene spheres in a single-beam gradient trap using measurements of backscattered light. Force constants were determined with both Gaussian and doughnut laser modes, with powers of 3 and 1 mW, respectively. Typical values for spring constants were measured to be between 10(-6) and 4 × 10(-6) N/m. The resonant frequencies of trapped particles were measured to be between 1 and 10 kHz, and the rms amplitudes of oscillations were estimated to be around 40 nm. Our results confirm that the use of the doughnut mode for single-beam trapping is more efficient in the axial direction.

[1] Watt W. Webb,et al. Measurement of small forces using an optical trap , 1994 .

[2] W. Webb,et al. Scanning-force microscope based on an optical trap. , 1993, Optics letters.

[3] A. Ashkin. Forces of a single-beam gradient laser trap on a dielectric sphere in the ray optics regime. , 1992, Methods in cell biology.

[4] Norman R. Heckenberg,et al. Optical Particle Trapping with Higher-order Doughnut Beams Produced Using High Efficiency Computer Generated Holograms , 1995 .

[5] H. Inaba,et al. Optical trapping and rotational manipulation of microscopic particles and biological cells using higher-order mode Nd:YAG laser beams , 1991 .

[6] Thomas Thundat,et al. RESONANCE RESPONSE OF SCANNING FORCE MICROSCOPY CANTILEVERS , 1994 .

[7] E. Bamberg,et al. Scan speed limit in atomic force microscopy , 1993 .

[8] Norman R. Heckenberg,et al. Measurement of the Optical Force and Trapping Range of a Single-beam Gradient Optical Trap for Micron-sized Latex Spheres , 1994 .