量子密碼學 的英文怎麼說
中文拼音 [liángzimìmǎxué]
量子密碼學
英文
quantum cryptography- 量 : 量動1. (度量) measure 2. (估量) estimate; size up
- 子 : 子Ⅰ名詞1 (兒子) son 2 (人的通稱) person 3 (古代特指有學問的男人) ancient title of respect f...
- 密 : Ⅰ名詞1 (秘密) secret 2 [紡織] (密度) density 3 (姓氏) a surname Ⅱ形容詞1 (距離近; 空隙小)...
- 碼 : Ⅰ名詞(表示數目的符號或用具) a sign or object indicating number; code Ⅱ量詞1 (指一件事或一類的...
- 學 : Ⅰ動詞1 (學習) study; learn 2 (模仿) imitate; mimic Ⅱ名詞1 (學問) learning; knowledge 2 (學...
- 量子 : quantum; gion
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With the rapid development of it and computer technology, information and communication securities become more important. quantum communication is one of the most important technologies, which is the combination of quantum mechanics and cryptography
隨著信息技術的飛速發展,信息安全與通信保密日益重要與突出。量子通訊是量子力學和密碼技術相結合的產物,是當今的熱點技術之一。Quantum communication is a rising interdisciplinary field which combines classical communication and quantum mechanics
量子密碼術是經典通信和量子物理相結合的一門新興交叉科學。Nevertheless, quantum cryptography, which is based on quantum physics, has been proved to be an effective technique for secure key distribution
然而,基於量子物理原理的量子密碼學已被證明是保密通信中密鑰安全分配的有效手段。Quantum cryptology is one of the nearest study tasks in cryptology technology, its development do active promotion to the progress of cryptology theory
而量子密碼術是密碼學技術的較新的研究課題,它的發展對推動密碼學理論發展起了積極的作用。In this paper, we firstly describe the recent research progress and the theory basis of quantum cryptography, then introduce quantum key distribution ( qkd ) and eavesdropping attacks on the qkd
本文首先描述了量子密碼學的最近研究進展及其理論基礎,接著介紹了量子密鑰分配以及在它之上的竊聽攻擊。Quantum communication is a rising interdisciplinary field which combines classical communication and quantum mechanics. quantum key distribution protocol makes use of single photon of quanta - randomicity to achieve unconditioned security key distribution, especially which is the realism significance of research way in quantum information at present
量子密碼術是經典通信和量子物理相結合的一門新興交叉科學。量子密鑰分配( qkd )協議利用單光子固有的量子隨機性實現具有無條件安全性的密鑰分配,是目前量子信息領域中特別具有現實意義的研究方向。Work done by author is introduced in this thesis. this work includes research on quantum cryptography theories, quantum key distribution and quantum digital signature together with application of quantum cryptography
本文介紹了作者在量子密碼學領域里的工作,這些工作主要包括對量子密碼理論、量子密鑰分配和量子數字簽名的研究,以及量子密碼技術的實際應用。Quantum key distribution ( qkd ) is an important application of quantum information. using the miraculous properties of quantum mechanics qkd breaks thought the confines of classical encryption and can make our communications perfectly secure
量子密碼學作為量子信息理論的一個重要方面,它利用量子力學的一些奇妙性質,突破了傳統密碼學的限制,能夠絕對安全地傳送信息。Quantum cryptography ( qc ) is the combination of classical cryptography and quantum mechanics. the characteristics of quantum mechanics, such as no - cloning theorem and heisenberg ' s uncertainty principle, provide the perfect secrecy for quantum cryptographic communication
量子密碼學是密碼學與量子力學結合的產物,利用量子不可克隆定理和海森堡測不準原理等量子特性,量子密碼通信理論上已經證明是絕對安全。In addition, the existence of quantum non - cloning theorem leads to the birth of quantum cryptograph. in principal, quantum cryptograph can provide perfect secure and unattacked secret communication system, which is guaranteed by the law of quantum mechanics
又如,在量子信息學中因為存在量子不可克隆定理,從而誕生了量子密碼學,它原則上能夠提供不可破譯、不可竊聽的保密通信體系,其安全性由量子力學基本原理所保證。Furthermore, some novel cryptography technology such as chaotic cryptography, quota cryptography are paid much attention by researchers beside conventional cryptography. in this paper, we propose a new chaotic searching simulated annealing method based on chaotic cryptography and intelligent computing to obtain cryptographically strong s - boxes
在傳統的利用代數方法設計密碼學的基礎上,一些新興的密碼學理論,如混沌密碼學、量子密碼學等等也引起了愈來愈多的學者的青睞。The study lays a foundation for further application of the expressed product in expansion of hematopoietic stem cells and tumor immunotherapy. last, recobinant human fl can be used to generate large numbers of antigen - presenting dendritic cells from cd34 + peripheral blood progenitor cells that might be ideally used for immunotherapeutic approaches
綜上所述,本實驗根據畢赤氏酵母偏愛密碼子構建了高效分泌表達fl的工程菌株,其分泌表達的重組fl蛋白具有與天然蛋白相似的生物學功能,為獲取大量重組fl蛋白,進一步研究fl的生物功能奠定了工作基礎。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。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。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。分享友人