Investigation on structure and photorefractive properties of Mg:Ce:Cu:LiNbO3 crystals with various [Li]/[Nb] ratios

## Abstract In:Fe:Cu:LiNbO~3~ crystals were grown in air by the Czochralski technique with various [Li]/[Nb] ratios of 0.946, 1.050, 1.200, and 1.380 in melt. Based on the ICP‐AES (inductively coupled plasma atomic emission spectrometry) analyzed results, the chemical formula of the triple‐doped In

## Abstract Hf:Fe:LiNbO~3~ crystals were grown in air by the Czochralski technique with various ratios of [Li]/[Nb]=0.94, 1.05, 1.20 in melt. The defect structure and location of doped ions were analyzed by the UV‐visible and infrared spectroscopy. The optical damage resistance ability of Hf:Fe:LiN

## Abstract Hf:Fe:LiNbO~3~ crystals were grown in air by the Czochralski technique with various [Li]/[Nb] ratios ([Li]/[Nb]=0.94, 1.05, 1.20) in melt. The defect structure and location of doped ions were analyzed by the UV‐visible absorption spectra. The optical damage resistance of Hf:Fe:LiNbO~3~

## Abstract Novel luminescence ultrafine fiber mats containing K~11~[Eu(PW~11~O~39~)~2~] [EuPW~11~] and Na~9~[EuW~10~O~36~] [EuW~10~] entrapped in polyvinyl alcohol (PVA) have been successfully prepared by electrospinning method. By comparing the luminescence emission spectra of EuPW~11~/PVA and Eu