Growth and Optical Characterization of Cr3+:YAB and Cr3+:YGAB Crystal for New Tunable and Self-Frequency Doubling Laser

Abstract

We have grown Cr³⁺-doped huntite-borate crystals Cr³⁺:YAB and Cr³⁺:YGAB by the top-seeded solution growth (TSSG) method. These crystals have a broad fluorescence ranging from the red to near-IR spectral region, and their lifetimes were measured as 170 µs and 87 µs, respectively. The emission cross sections are estimated to be 0.8 ×10^-20and 1.6 ×10^-20cm², respectively. The vibronic levels of their ground state were estimated to be ≈1400 cm^-1, so they can provide a four-level system. The optical gain of Cr³⁺:YAB crystal was measured in the range from 744 nm to 852.5 nm. The maximum single-pass gain was 1.9 at 830 nm. Second harmonic generation in the UV region (375 nm) was obtained by a Cr³⁺:YAB crystal with 1.5 times higher conversion efficiency compared with LBO crystal. Consequently Cr³⁺:YAB crystal and Cr³⁺:YGAB crystal have potential as new self-frequency doubling laser materials with tunability.