quantum teleportation 中文意思是什麼

quantum teleportation 解釋
量子遠傳
  • quantum : n. (pl. -ta )1. 量,額;定量,定額;份;總量。2. 【物理學】量子。
  • teleportation : 電子傳輸
  1. Entanglement translation and quantum teleportation of the single - photon entangled state

    單光子糾纏態的糾纏轉移和量子隱形傳態
  2. Note that quantum teleportation, originally proposed by bennett et al in 1993, is one of the most strikingly interesting field in quantum communication

    其中,量子隱形傳態是量子通信領域中最引人注目的方向之一,這一概念是由bennett等人在1993年最早提出的。
  3. In this paper, the application of spin chain in the quantum information processing is introduced, including the application in quantum cryptography, teleportation and quantum computation. spin chain can be used as quantum channel to transport quantum state, and can also be used to realize general quantum gate

    介紹了自旋鏈在量子信息過程中的應用,包括在量子密碼和隱形傳輸中以及量子計算中的應用,自旋鏈可以充當量子通道用來傳輸量子態,自旋鏈也可以用來實現量子通用門。
  4. In practice, this dissertation focuses on the study of the aforementioned two problems, we have investigated and analyzed the controlling mechanism of the adiabatic conditional geometric quantum phase - shift gates for two - qubit, and realized the geometric quantum computation by making use of the nonadiabatic geometric phase of quantum states of the superconducting josephson junctions quantum interference device system. we have also discussed the accessible information of quantum signal resource ensemble, and studied the teleportation of an arbitrary d - dimensional tv - particle unknown state via a partially - entangled quantum channel ; this dissertation comes in four parts

    實際上,我們在本文中就上述兩方面的問題作了一些探討:研究和分析了兩量子位絕熱條件幾何量子相移門的控制機制,利用超導約瑟夫森結量子器件系統的量子態的非絕熱幾何相位實現了幾何量子計算、討論了信源系綜的可接收信息問題以及任意d維n粒子未知量子態通過部分糾纏量子通道的隱態傳輸問題等。
  5. Quantum information science is a new subject combining quantum theory and information science. great progress has been made in quantum teleportation, description of quantum entanglement and classification of quantum states. according to this, the following work has been completed : ( 1 ) a scheme for teleporting an unknown n - dimensionni - particle state by making use of the maximum entangled state as quantum channel is proposed

    量子信息學是量子力學理論和計算機理論相結合而產生的一門新的交叉學科,在量子隱形傳態、量子糾纏態的描述及量子態的分類等領域取得了重要進展,本文圍繞這幾個方面開展了如下研究工作: ( 1 )在文章的第二章研究了多能級多粒子量子態的傳輸。
  6. Quantum entropy theory is the foundation and powerful tool in understanding and studying such problems as quantum computation, quantum communication, quantum teleportation, quantum measurement and quantum entanglement

    它是理解和研究量子計算、量子通信、量子隱形傳態、量子測量、量子糾纏等熱點課題的理論基礎和有力工具。
  7. Through the non - locality of the quantum entanglement, teleportation schemes of arbitrary two - particle and three - particle states are proposed

    通過量子糾纏的非局域性,提出了實現任意二粒子和三粒子量子態的隱形傳送的方案。
  8. The principles of quantum teleportation : the information of original can be divided into classical information and quantum information

    量子隱形傳態的基本思想為:為實現傳送某一物體的未知量子態可將原物的信息分為經典信息和量子信息。
  9. In the last section, we show how entangled states are used in quantum dense coding, quantum cryptography and quantum teleportation. a new valuable scheme based on linear optical elements about teleportation of two - photon and multi - photon entangled states also has been proposed in this section. in this scheme t he probability of the successful teleportation is 50 %, which is optimal

    量子糾纏在量子信息中的應用這一章中,我們將首先分別介紹量子糾纏在量子密集編碼,量子密鑰分佈,量子隱形傳態中的應用,然後提出一種利用線性光學方法實現糾纏態的隱形傳送方案,此方案的成功率為50 ,這也是目前為止最佳的成功幾率。
  10. Utilizing entanglement, we can implement the disembodied transport of an unknown quantum state from one place to another remote place with high - fidelity, i. e. quantum teleportation. via entanglement, we can also improve the channel capacity of classical signal in quantum channel, i. e. quantum dense coding, even we can entangle two quantum systems that have never directly interacted with each other by means of entanglement swapping

    利用量子糾纏,通訊雙方可以實現對一個量子態的高保真度遠程傳輸,即量子離物傳態;利用量子糾纏,通訊雙方可以實現經典信息的高通道容量傳輸,即量子密集編碼;甚至可以使原本不糾纏的量子系統產生糾纏,即糾纏交換。
  11. On the basis of principles of quantum teleportation, work that has been done in this thesis is as following : in practice, the entangled state used as quantum channel is always not a maximally entangled state because of interference of environment

    本論文基於量子信息中的量子隱形傳態思想,開展了如下工作:由於熱庫引起的消糾纏問題的存在,在實際的量子隱形傳態過程中,量子通道通常不易保持最大糾纏態。
  12. Based on qutantum entanglement, quantum entanglement in the quantum communication has been profoundly discussed and approach of the exceed - velocity of light by quantum teleportation has been brought about

    在介紹量子糾纏特性的基礎上,對量子隱形傳態進行了探討,提出了超光速量子通信的途徑。
  13. Since then, quantum teleportation has developed rapidly

    從那以後,量子隱形傳態有了快速的發展。
  14. The information can be decoded using the results of the measurement as the key [ see “ quantum teleportation, ” by anton zeilinger ; scientific american, april 2000 ]

    利用測量的結果當做鑰匙,可用以將資訊解碼(見延伸閱讀3 ) 。
  15. Quantum teleportation allows transmit an unknown quantum state from a sender, traditionally named alice, to receiver, or bob, both are spatially separated

    量子隱形傳態可以從發送者(通常稱為alice )處傳輸一個未知量子態給接收者(通常稱為bob ) ,發送者和接收者是空間遠離的。
  16. Quantum communication is a very important branch of quantum information. at present, it mainly contains quantum teleportation, quantum dense coding, quantum key distribution, and so on

    量子通信是量子信息學的一個非常重要的分支,目前主要涉及到量子隱形傳態、量子密集編碼、量子密鑰分配等。
  17. The quantum teleportation of continuous variables with two - mode squeezed vacuum states is reviewed. its importance and advantages relative to the quantum teleportation of discrete variables are discussed

    介紹了通過雙模壓縮真空態實現連續變量量子隱形傳態的方法,並探討了這一工作的重要意義及其相對于分離變量量子隱形傳態的優越性
  18. Because classical information is indispensable to quantum teleportation and the transport speed of classical information does not exceed velocity of light, quantum teleportation does not violate quantum no - cloning theorem and principle of relativity

    由於經典信息對量子態的隱形傳送必不可少,所以量子隱形傳態不違背量子不可克隆定理。此外,經典信息傳送速度不可能快于光速,因此量子隱形傳態不違背相對論的光速最大原理。
  19. With the development of quantum information, entangled states are not only used to testify some basic quantum theories, but also used as a kind of efficient resource in quantum dense coding, quantum teleportation, and so on

    量子信息的不斷發展使糾纏態不僅被用來驗證量子力學的基本原理,人們還將量子糾纏作為一種有效的資源來進行量子密集編碼,量子隱形傳態等。
  20. We briefly summarized the experimental generation scheme of the optical entangle states for continuous variables and their applications in quantum teleportation, quantum dense coding, controlled dense coding, entanglement swapping and quantum communication network

    扼要介紹連續變量糾纏態光場產生的實驗方法,及其在量子離物傳態,量子密集編碼,受控密集編碼,量子糾纏交換及量子通信網路中的應用
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