光子学报
光子學報
광자학보
ACTA PHOTONICA SINICA
2011年
8期
1244-1247
,共4页
纠缠相干态%纠缠浓缩%光束分离器%光子探测
糾纏相榦態%糾纏濃縮%光束分離器%光子探測
규전상간태%규전농축%광속분리기%광자탐측
Entangled coherent state%Entanglement concentration%Beam-splitters%Detection of photon
利用线性光学元器件对光场量子态进行操纵,可以实现远程的量子纠缠调控和量子通讯.通过分析光学分束器对相干态光场的作用,发现当初始光场态是两个两部分纠缠态的直乘时,让其中的两模通过光学分束器作用后再对其进行光子计数,另外两模将会塌缩到新的纠缠态.基于这个特点,提出了一个实现部分纠缠相干态纠缠浓缩的方案.在这个方案中,两个部分纠缠相干态被用来作为量子信道,通过光学分束器作用后对光场进行光子数探测时,如果测量到光场的两模分别处于奇光子数态和零光子数态,则光场另外的两模将塌缩到最大纠缠态,从而完成纠缠浓缩的过程.计算结果表明,对于纠缠相干态,无论其初始的纠缠是多么微弱,利用这种方法总有一定的几率可以从中提纯出最大纠缠态.
利用線性光學元器件對光場量子態進行操縱,可以實現遠程的量子糾纏調控和量子通訊.通過分析光學分束器對相榦態光場的作用,髮現噹初始光場態是兩箇兩部分糾纏態的直乘時,讓其中的兩模通過光學分束器作用後再對其進行光子計數,另外兩模將會塌縮到新的糾纏態.基于這箇特點,提齣瞭一箇實現部分糾纏相榦態糾纏濃縮的方案.在這箇方案中,兩箇部分糾纏相榦態被用來作為量子信道,通過光學分束器作用後對光場進行光子數探測時,如果測量到光場的兩模分彆處于奇光子數態和零光子數態,則光場另外的兩模將塌縮到最大糾纏態,從而完成糾纏濃縮的過程.計算結果錶明,對于糾纏相榦態,無論其初始的糾纏是多麽微弱,利用這種方法總有一定的幾率可以從中提純齣最大糾纏態.
이용선성광학원기건대광장양자태진행조종,가이실현원정적양자규전조공화양자통신.통과분석광학분속기대상간태광장적작용,발현당초시광장태시량개량부분규전태적직승시,양기중적량모통과광학분속기작용후재대기진행광자계수,령외량모장회탑축도신적규전태.기우저개특점,제출료일개실현부분규전상간태규전농축적방안.재저개방안중,량개부분규전상간태피용래작위양자신도,통과광학분속기작용후대광장진행광자수탐측시,여과측량도광장적량모분별처우기광자수태화령광자수태,칙광장령외적량모장탑축도최대규전태,종이완성규전농축적과정.계산결과표명,대우규전상간태,무론기초시적규전시다요미약,이용저충방법총유일정적궤솔가이종중제순출최대규전태.
With linear optical components to manipulate quantum states of optical fields,the quantum entanglement control and quantum communication can be implemented remotely.By analyzing optical splitter and its use of coherent states,it was found that when the initial state was a direct product of two partially entangled coherent states ; another two modes would collapse to a new entangled state using optical splitter and photon-detectors on two modes.Based on this feature,the scheme on entanglement concentration was presented. In this scheme,the two partially entangled coherent states were utilized as the quantum channel,when zero photon and odd photons were detected in two modes separately,and another two modes would collapse to the maximum entangled state,thereby completing the process of the entanglement concentration.It was proved that,no matter how small the initial entanglement is,to distill some maximally entangled states from partially entangled pure states is possible.
