高能物理与核物理
高能物理與覈物理
고능물리여핵물리
HIGH ENERGY PHYSICS AND NUCLEAR PHYSICS
2005年
1期
14-18
,共5页
远程传输%纠缠%正-负电子对%康普顿散射%韧致辐射
遠程傳輸%糾纏%正-負電子對%康普頓散射%韌緻輻射
원정전수%규전%정-부전자대%강보돈산사%인치복사
teleportation%entanglement%electron-positron pair%Compton scattering%Bremstrhlung scattering
将来的远程通信中,量子远程传输可能成为重要的手段之一.整个理论是基于量子纠缠态机制的.但是纠缠态是很脆弱的.当量子态被环境扰动时,纠缠态会被打破.在此文中,我们选择处在总自旋为0的纠缠态中的正负电子为例,研究纠缠态由于与背景辐射光子的康普顿散射或与电子经过的大天体的强磁场散射而破坏的概率.由于单个电子的自旋投影不是物理可观测量,而且,电子束由于带电粒子间的库仑斥力,不可能较长期保持成团的形状.因而只能每次只发射一对正负电子对,并不断重复这个过程.由于这些限制,此文研究只有理论上的意义,但是也许对将来如何选择信息传递信使的研究有帮助.
將來的遠程通信中,量子遠程傳輸可能成為重要的手段之一.整箇理論是基于量子糾纏態機製的.但是糾纏態是很脆弱的.噹量子態被環境擾動時,糾纏態會被打破.在此文中,我們選擇處在總自鏇為0的糾纏態中的正負電子為例,研究糾纏態由于與揹景輻射光子的康普頓散射或與電子經過的大天體的彊磁場散射而破壞的概率.由于單箇電子的自鏇投影不是物理可觀測量,而且,電子束由于帶電粒子間的庫崙斥力,不可能較長期保持成糰的形狀.因而隻能每次隻髮射一對正負電子對,併不斷重複這箇過程.由于這些限製,此文研究隻有理論上的意義,但是也許對將來如何選擇信息傳遞信使的研究有幫助.
장래적원정통신중,양자원정전수가능성위중요적수단지일.정개이론시기우양자규전태궤제적.단시규전태시흔취약적.당양자태피배경우동시,규전태회피타파.재차문중,아문선택처재총자선위0적규전태중적정부전자위례,연구규전태유우여배경복사광자적강보돈산사혹여전자경과적대천체적강자장산사이파배적개솔.유우단개전자적자선투영불시물리가관측량,이차,전자속유우대전입자간적고륜척력,불가능교장기보지성단적형상.인이지능매차지발사일대정부전자대,병불단중복저개과정.유우저사한제,차문연구지유이론상적의의,단시야허대장래여하선택신식전체신사적연구유방조.
The teleportation may become an important means for remote distance communications in the future, and the mechanism is based on entanglement of quantum states. But the entanglement is fragile. As the state is disturbed by the environment the entanglement may be broken down. In this work, we choose the electron-positron pair in an entangled state of spin 0 as an example to investigate the rate of breaking down of the entanglement by the Compton scattering with the background radiation photons or Bremstrahlung with strong magnetic fields of some astronomical objects which the electron or positron passes by. Since the spin projection of single electron (positron) is not physically measurable and the electron beams cannot keep its shape for long because of the Coulomb repulsion among the charged particles in the beam, the only way is to shoot one electron-positron pair each time and continuously repeat the processes. With all the restraints this study has only pedagogic meaning, but may shed light on further studies where other information messagers are chosen.
