Eu3+:Y2SiO5晶体的烧孔全息

H. Sasaki, K. Karaki, M. Mitsunaga, N. Uesugi
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引用次数: 0

摘要

烧孔全息术是一种超高密度的图像存储技术。由于存储容量由非均匀线宽与均匀线宽之比决定,因此在单个采样点上可以记录103~106张图像。Wild等人对有机染料掺杂聚合物样品进行了广泛的全息全息研究[1-4]。另一方面,由于很少有晶体具有持久的孔洞,因此没有对晶体样品进行烧孔全息术。我们对Eu3+:Y2SiO5晶体进行了烧孔全息成像,该晶体具有持久的孔洞。此外,Eu3+:Y2SiO5还具有其他独特的特性5,6,如窄的空穴宽度和高的烧孔量子效率。通过使用这种晶体,我们还成功地实时记录了一个运动物体。
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Holeburning Holography in Eu3+:Y2SiO5 crystal
Holeburning holography is an ultrahigh density image storage technique. Since the memory capacity is governed by the ratio of the inhomogeneous-to-homogeneous linewidths, 103~106 images can be recorded in a single sample spot. An extensive study on holebuming holography has been carried out by Wild et.al for organic dye-doped polymer samples1-4. On the other hand, holeburning holography has not been carried out for crystal samples, because there are few crystals exhibiting persistent holes. We have performed holeburning holography to record images for Eu3+:Y2SiO5 crystal which has been known for exhibiting persistent holes. Moreover, Eu3+:Y2SiO5 has other unique features5,6 such as narrow holewidth and high holeburning quantum efficiency. By using this crystal, we have also succeeded in real-time recording of a moving object.
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