Spatial confinement of laser-induced plasma by laser-induced and obstacle-reflected shock wave and its effect on optical emission of laser-induced plasma

Abstract: The laser-induced plasma (LIP) and the shock wave generated by pulsed laser ablation of a graphite target in air and reflected by a flat obstacle were examined by optical emission spectroscopy and probe beam deflection measurements. The interaction between the LIP and the shock wave and its effects on the expansion of the LIP as well as on the optical emission of carbon atoms were studied. The carbon atomic emission can be enhanced or reduced in the situation with a flat obstacle standing in the propagation pa… Show more

“…The spatial confinement has been examined as a potential method for improving the detection sensitivity of laser induced break down spectroscopy (LIBS). Various geometries such as cylindrical cavities [28,29] and flat obstacle(s) [30][31][32] have been implemented in order to ensure spatial confinement of laser produced plasmas in air.…”

The Effect of Confinement Angle on Self-Colliding Aluminium Laser Plasmas Using Spectrally Resolved Fast Imaging

“…The spatial confinement has been examined as a potential method for improving the detection sensitivity of laser induced break down spectroscopy (LIBS). Various geometries such as cylindrical cavities [28,29] and flat obstacle(s) [30][31][32] have been implemented in order to ensure spatial confinement of laser produced plasmas in air.…”

The Effect of Confinement Angle on Self-Colliding Aluminium Laser Plasmas Using Spectrally Resolved Fast Imaging

Nanosecond and Femtosecond Laser‐Induced Breakdown Spectroscopy: Fundamentals and Applications

Langmuir probe characterization of spatially confined laser-induced Bismuth plasma