We build the double-optical-trapping and double-optical tweezer experiment system and achieve driving particles with double light traps method.The principle is that the vortex force generated by light rotation using birefringence crystal particles drives ordinary particles captured by optical tweezer rotating.The CaCO3 crystal rotation will produce vortex which can drive a yeast cell which is captured by light rotation.The rotation of the crystal particles and passive particle is observed by a CCD camera.The rotation characteristics of yeast cell which is driven by CaCO3 particles are analyzed and discussed.When the two laser power supplies are constant,the distance between two light sources must be suitable,the yeast will be driven by CaCO3 particles,and it rotates in the opposite direction of the motion of CaCO3 particles.Experimental results show that the frequency of counter-clockwise rotation of CaCO3 is 2.75 Hz and that of clockwise rotation of yeast cell mass is 2.25 Hz.