Influence of laser beam on transport dynamics of Si nanoparticles by laser ablation

Abstract: To investigate nucleation area and transport dynamics of Si nanoparticles, nanocrystalline silicon films were prepared by pulsed laser ablation. Subsequently, the additional laser beam as energy source was introduced, which crossed vertically the plasma plume from the top down in front of the target at a distance of 0.5 cm under same experiment condition. In this region, due to collision between the photon and the plasma plume, the transport of Si nanoparticles was impacted by the cross-laser beam. The Raman a… Show more

“…Moreover, the average sizes of nanoparticles in all the films prepared under the three gases are maximal at 0 • , namely, at the position facing the plume. Because the substrate is not heated, the nanoparticles are formed by undergoing gas phase nucleation [21]. After the pulse laser ablates the single crystalline Si target, ablation particles are ejected out to all directions, with velocities approximately satisfying the Maxwell velocity distribution [22], and then transported and deposited on the substrates.…”

Angular Distribution of Damping Coefficient of Ablated Particle in Pure He, Ne, and Ar Gases

“…Moreover, the average sizes of nanoparticles in all the films prepared under the three gases are maximal at 0 • , namely, at the position facing the plume. Because the substrate is not heated, the nanoparticles are formed by undergoing gas phase nucleation [21]. After the pulse laser ablates the single crystalline Si target, ablation particles are ejected out to all directions, with velocities approximately satisfying the Maxwell velocity distribution [22], and then transported and deposited on the substrates.…”

Angular Distribution of Damping Coefficient of Ablated Particle in Pure He, Ne, and Ar Gases

The role of laser ablation technique parameters in synthesis of nanoparticles from different target types