Vísindaeyjateymið náði framförum í mið-innrauðri leysir hávirkni litíumníóbat Q-rofa tækni
Nýlega starfaði rannsóknarhópur Jiang Haihe, fræðimanns við Medical Laser Technology Laboratory Heilbrigðisstofnunarinnar, Hefei Research Institute of the Chinese Academy of Sciences, í samstarfi við China Electronics Technology Group og náði mikilvægum framförum í rannsóknum á hljóð- Optic Q-switching tækni í mið-innrauða bandinu: í fyrsta skipti hafa litíumníóbat (LiNbO3) kristallar verið að veruleika. Hljóðsjónrofar og afkastamikill Q-switched útgangur þeirra í 2,79 μm Er,Cr:YSGG leysigeislum. Viðeigandi niðurstöður hafa verið birtar í alþjóðlega sjónræna tímaritinu Optics Letters.
Lithium niobate crystal is a traditional multifunctional crystal. In recent years, lithium niobate thin-film photonic devices with extremely low optical loss and rich photoelectric functions have developed rapidly. Lithium niobate is expected to replace silicon materials in the field of integrated photonics. Problems provide solutions. Since the discovery of lithium niobate crystal in 1937, although it has good acousto-optic properties and has been used as a transducer material for a long time, it has not been able to realize the laser acousto-optic Q-switching switch of bulk crystals. This research has realized the homogeneity and integration of the acousto-optic medium and the transducer, which can simplify the manufacturing process, reduce the auxiliary cost, and also reduce the loss of ultrasonic energy, so that the diffraction efficiency of the lithium niobate Q-switch can reach 57%. And the lithium niobate crystal has a high damage resistance threshold (>200 MW/cm2).
