物理
物理
물리
2001年
1期
26-29
,共4页
双光子吸收%三维光存储%聚合物
雙光子吸收%三維光存儲%聚閤物
쌍광자흡수%삼유광존저%취합물
双光子吸收三维数字光存储是实现超高密度光存储的一种重要方法.双光子吸收几率与作用光强的平方成正比,使得只有位于焦点小范围内的记录介质受到激发.双光子吸收激发的光致聚合作用、光致变色作用、光致荧光漂白、光折变等效应,引起这一小范围内记录介质的光学性质发生改变.结果能将信息写到亚微米尺度的体积单元中,实现三维数字光存储.这种双光子吸收三维数字光存储的存储密度可达1012Bits/cm\+3.文章介绍了双光子吸收三维数字光存储的原理和进展.
雙光子吸收三維數字光存儲是實現超高密度光存儲的一種重要方法.雙光子吸收幾率與作用光彊的平方成正比,使得隻有位于焦點小範圍內的記錄介質受到激髮.雙光子吸收激髮的光緻聚閤作用、光緻變色作用、光緻熒光漂白、光摺變等效應,引起這一小範圍內記錄介質的光學性質髮生改變.結果能將信息寫到亞微米呎度的體積單元中,實現三維數字光存儲.這種雙光子吸收三維數字光存儲的存儲密度可達1012Bits/cm\+3.文章介紹瞭雙光子吸收三維數字光存儲的原理和進展.
쌍광자흡수삼유수자광존저시실현초고밀도광존저적일충중요방법.쌍광자흡수궤솔여작용광강적평방성정비,사득지유위우초점소범위내적기록개질수도격발.쌍광자흡수격발적광치취합작용、광치변색작용、광치형광표백、광절변등효응,인기저일소범위내기록개질적광학성질발생개변.결과능장신식사도아미미척도적체적단원중,실현삼유수자광존저.저충쌍광자흡수삼유수자광존저적존저밀도가체1012Bits/cm\+3.문장개소료쌍광자흡수삼유수자광존저적원리화진전.
An important way to realize super-high density optical storage is by three-dimensional digital optical storage based on two-photon absorption.The rate of two-photon excitation is proportional to the squared intensity of the incident light.This produces excitation only within a small region of the focus spot of the recording medium.The effects of two-photon excitation,such as photopolymerization,photochromic,photobleaching and photorefractive effects,change the optical properties of the excited fraction of the recording medium.As a result,information can be written as submicrometer volume elements,and three-dimensional digital optical data storage is achieved,the bit density of which may be as large as 1012Bits/cm\+3.
