| 1. | The relation between property of high density volume holographic storage
高密度体全息存储性能与几何组态的关系 |
| 2. | Design and found the real volume storage system based on the theory
在理论研究的基础上,设计构建了实际的体全息存储系统。 |
| 3. | The experimental results show that the material is suitable for transmission hologram
实验结果表明该材料拥有好的全息存储潜力。 |
| 4. | Realization of accurate addressing in volume holographic storage system based on moir 233 ; fringe
基于莫尔条纹实现体全息存储系统的准确寻址 |
| 5. | We believe that the successful building up of this system will make a great progress in high - density nonvolatile volume holographic storage
本系统的研制成功有利于全息存储热固定的实用化。 |
| 6. | This system can be used to store no less than 10000 holograms , and it is flexible and practical to operate . we stored 1
证实了分批存储热固定是实现高衍射效率和高图像质量的高密度全息存储的优选方案。 |
| 7. | Gratings were recorded at a range of interbeam angles to investigate the relative response of the recording martial at a range of spatial frequencies
实验结果表明,用弱光记录和1 : 1的束比容易得到较好的全息存储特性。 |
| 8. | To acquire higher input speed , we studied the possibility of using a volume holographic storage as an input device for optical signal processing
为了获得更高的输入速度,探讨了利用体全息存储技术进行信号输入的可能性。 |
| 9. | Totally , they can be divided into two methods : ( 1 ) . wavelength multiplexed holographic data storage ; ( 2 ) . angular multiplexed holographic data storage
这些方法总的来说可以分为两种: a .多波长重叠光全息存储; b .多角度重叠光全息存储。 |
| 10. | In this paper the positions of images reconstructed by illuminated plane waves of fraunhofer defocused holographic memory system are theoretically described and discussed
摘要对用平面波读出夫琅和费离焦全息存储系统再现像的位置进行理论分析与讨论。 |
