量子电子学报
量子電子學報
양자전자학보
CHINESE JOURNAL OF QUANTUM ELECTRONICS
2009年
5期
565-569
,共5页
量子光学%受控隐形传态%腔QED%强经典驱动场%失谐相互作用
量子光學%受控隱形傳態%腔QED%彊經典驅動場%失諧相互作用
양자광학%수공은형전태%강QED%강경전구동장%실해상호작용
quantum optics%controlled teleportation%cavity QED%strong classical driving field%detuned interaction
提出一个利用三粒子非最大纠缠态传送未知原子态的腔QED方案.这个方案的主要优点是隐形传态和纯化过程能够同时进行,而且与腔衰减和热场无关,不用预先将非最大纠缠态量子通道纯化为最大纠缠态.另外,联合Bell态测量可以转化为单原子测量.
提齣一箇利用三粒子非最大糾纏態傳送未知原子態的腔QED方案.這箇方案的主要優點是隱形傳態和純化過程能夠同時進行,而且與腔衰減和熱場無關,不用預先將非最大糾纏態量子通道純化為最大糾纏態.另外,聯閤Bell態測量可以轉化為單原子測量.
제출일개이용삼입자비최대규전태전송미지원자태적강QED방안.저개방안적주요우점시은형전태화순화과정능구동시진행,이차여강쇠감화열장무관,불용예선장비최대규전태양자통도순화위최대규전태.령외,연합Bell태측량가이전화위단원자측량.
A physical scheme for teleporting unknown atomic entangled states via three-atom non-maximally entangled states is proposed in cavity QED. The distinct advantages of the scheme are that the teleportation and distillation procedure can be realized simultaneously, and the scheme is insensitive to the cavity decay and thermal field with the assistance of a strong classical driving field. It is also unnecessary to concentrate non-maximally entanglement state quantum channel in advance. In addition, the joint Bell-state measurement can be distinguished via detecting the atomic state.