Controlling the position and motion of small objects using light offers an attractive means of manipulating tiny microscopic samples, such as biological cells or microscopic particles. Optical tweezers enable the trapping of gold nanoparticles, and by employing circular polarization of the laser, they can be rotated at a frequency of several kHz. This study aims to investigate the rotational dynamics of particles in a two-dimensional optical trap and experimentally study the factors affecting it, including laser power, numerical aperture of the focusing lens, and the medium viscosity. The rotational dynamics were analyzed using two methods, namely the power spectrum method and autocorrelation of particle movement. Experimental results on 400 nm gold particles reveal that, under a laser wavelength of 1064 nm and a numerical aperture of 1, the maximum rotation speed reaches 1470 Hz. Additionally, the observed changes in rotation speed within different liquids with different viscosity agree with the theory prediction.
Samadzadeh,M. and Hajizadeh,F. (2024). Investigating parameters affecting the rotational motion of optically trapped metal nanoparticles. Iranian Journal of Physics Research, 23(4), 629-636. doi: 10.47176/ijpr.23.4.01775
MLA
Samadzadeh,M. , and Hajizadeh,F. . "Investigating parameters affecting the rotational motion of optically trapped metal nanoparticles", Iranian Journal of Physics Research, 23, 4, 2024, 629-636. doi: 10.47176/ijpr.23.4.01775
HARVARD
Samadzadeh M., Hajizadeh F. (2024). 'Investigating parameters affecting the rotational motion of optically trapped metal nanoparticles', Iranian Journal of Physics Research, 23(4), pp. 629-636. doi: 10.47176/ijpr.23.4.01775
CHICAGO
M. Samadzadeh and F. Hajizadeh, "Investigating parameters affecting the rotational motion of optically trapped metal nanoparticles," Iranian Journal of Physics Research, 23 4 (2024): 629-636, doi: 10.47176/ijpr.23.4.01775
VANCOUVER
Samadzadeh M., Hajizadeh F. Investigating parameters affecting the rotational motion of optically trapped metal nanoparticles. Dear user; Recently we have changed our software to Sinaweb. If you had already registered with the old site, you may use the same USERNAME but you need to change your password. To do so at the first use, please choose, 2024; 23(4): 629-636. doi: 10.47176/ijpr.23.4.01775
