Highly efficient Yb:YAG microchip laser for direct generation of radially polarized vector vortices

Abstract: High beam quality, highly efficient radially polarized vector vortex beam has been generated in a Yb:YAG microchip laser pumped with an annular beam formed with a hollow focus lens. The output power of 2.15 W has been achieved at the absorbed pump power of 3.53 W. The optical-to-optical efficiency is 60.9%. The radially polarized vector vortex lasers working at 1030 nm, 1050 nm, 1030/1050 nm dual-wavelength depending on applied pump power. High polarization purity with degree of polarization of over 91% has be… Show more

“…[21] Highly efficient, high-order cylindrical vector vortex Yb 3+ :Y 3 Al 5 O 12 (Yb:YAG) microchip lasers were demonstrated. [22,23] However, the laser wavelength of the high-order LG 0,n lasers were restricted by the emission spectra of laser gain medium, such as 1064 nm for Nd:YVO 4 crystal and 1030 nm for Yb:YAG crystal. High-order LG 0,n petal-like lasers oscillating at some special wavelength which cannot be achieved by crystal emission spectra further expand the potential applications.…”

Broadband Petal‐Like Raman Laser

“…[21] Highly efficient, high-order cylindrical vector vortex Yb 3+ :Y 3 Al 5 O 12 (Yb:YAG) microchip lasers were demonstrated. [22,23] However, the laser wavelength of the high-order LG 0,n lasers were restricted by the emission spectra of laser gain medium, such as 1064 nm for Nd:YVO 4 crystal and 1030 nm for Yb:YAG crystal. High-order LG 0,n petal-like lasers oscillating at some special wavelength which cannot be achieved by crystal emission spectra further expand the potential applications.…”

Broadband Petal‐Like Raman Laser

Generation of one-dimensional vortex-arrays with tunable singularity and high peak power in a passively Q-switched microchip laser

High-power CW 1048 nm Yb:YAG Dual-Ended Diode-pumped zigzag slab Laser