Litcius/Paper detail

Micro-scale opto-thermo-mechanical actuation in the dry adhesive regime

Weiwei Tang, Wei Lyu, Jinsheng Lu, Fengjiang Liu, Jiyong Wang, Wei Yan, Min Qiu

2021Light Science & Applications24 citationsDOIOpen Access PDF

Abstract

Realizing optical manipulation of microscopic objects is crucial in the research fields of life science, condensed matter physics, and physical chemistry. In non-liquid environments, this task is commonly regarded as difficult due to strong adhesive surface force (~µN) attached to solid interfaces that makes tiny optical driven force (~pN) insignificant. Here, by recognizing the microscopic interaction mechanism between friction force-the parallel component of surface force on a contact surface-and thermoelastic waves induced by pulsed optical absorption, we establish a general principle enabling the actuation of micro-objects on dry frictional surfaces based on the opto-thermo-mechanical effects. Theoretically, we predict that nanosecond pulsed optical absorption with mW-scale peak power is sufficient to tame µN-scale friction force. Experimentally, we demonstrate the two-dimensional spiral motion of gold plates on micro-fibers driven by nanosecond laser pulses, and reveal the rules of motion control. Our results pave the way for the future development of micro-scale actuators in non-liquid environments.

Topics & Concepts

NanosecondMaterials scienceThermoelastic dampingActuatorAdhesiveAbsorption (acoustics)NanotechnologyScale (ratio)LaserOptoelectronicsMechanicsOpticsComposite materialPhysicsElectrical engineeringEngineeringLayer (electronics)MeteorologyThermalQuantum mechanicsOrbital Angular Momentum in OpticsMechanical and Optical ResonatorsAdvanced Fiber Laser Technologies