Doubly doped lithium niobate crystals

Assignee

• Nankai University · CN

Inventors

• Yongfa Kong · Tianjin, CN
• Jingjun Xu · Tianjin, CN
• Guangao Li · Tianjin, CN
• Qian Sun · Nanhu, CN
• Baiquan Tang · Tianjin, CN
• Hui Huang · Tianjin, CN
• Ziheng Huang · Tianjin, CN
• Shaolin Chen · Zhuhai, CN
• Xiaojun Chen · Shanghai, CN
• Guangyin Zhang · Tianjin, CN

Key dates

Classification

• Technology area (CPC G)Physics
• CPC primaryG11B7/0065
• WIPO fieldAudio-visual technology
• WIPO sectorElectrical engineering

Abstract

This invention relates to the field of materials of the photorefractive crystal. The composition of these crystals is Li1−xNb1+yO3: Fem, Mn, where M can be magnesium, indium, or zinc; when using q to denote the ion valence of M (q=2 when M is Mg or Zn, and q=3 when M is In), the values of x, y, m, and n are in the range of 0.05≦x≦0.13, 0.00≦y≦0.01, 5.0×10−5≦m≦7.5×10−4, and 0.02≦qn≦0.13. This invention greatly improves the photorefractive properties of LiNbO3 crystals: makes it have a high diffraction efficiency (more than 68%), a fast response speed for photorefraction (an order of magnitude faster than iron doped LiNbO3), and a high resistance to optical scattering (the light intensity threshold to photorefractive fan scattering near two orders of magnitude larger than LiNbO3: Fe). This invention is an excellent three-dimensional optical storage material and has a vast potential market.