高密度儲存 的英文怎麼說
中文拼音 [gāomìdùchǔcún]
高密度儲存
英文
high-density storage- 高 : Ⅰ形容詞1 (從下向上距離大; 離地面遠) tall; high 2 (在一般標準或平均程度之上; 等級在上的) above...
- 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)...
- 度 : 度動詞[書面語] (推測; 估計) surmise; estimate
- 儲 : Ⅰ動詞(儲藏; 存放) store up; save; keep [have] in reserve Ⅱ名詞1. (繼承人) heir 2. (姓氏) a surname
- 存 : 動詞1 (存在; 生存) exist; live; survive 2 (儲存; 保存) store; keep 3 (蓄積; 聚集) accumulat...
- 高密度 : high density高密度存儲(器) high-density storage; 高密度組裝 high-density assembly
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In this article, the fundamental principle and current research of optical data storage including cd and dvd, three - dimensional optical data storage and near - field high - density optical data storage are summarized. a two - dimensional finite difference time domain program for analysis of solid immersion lens system is compiled
本論文概述了已產業化的以cd和dvd為代表的光盤存儲技術和在開發中的高密度光存儲技術(主要包括三維光數據存儲技術及近場光學超高密度光存儲技術)的原理及研究現狀。The optical near - field distribution and propagation properties of solid immersion lens system are analyzed in detail when illuminated by linearly polarized focusing gauss beam. the change of the optical intensity and beam dimension at the bottom of solid immersion lens with different refractive index and different distance are discussed. the simulated results reveal that the higher the refractive index is, the stronger the optical intensity and the smaller the beam dimension at the bottom of the solid immersion lens will be
編制了對固體浸沒透鏡近場超高密度光存儲系統進行模擬的二維時域有限差分程序,實現了對固體浸沒透鏡光存儲系統的數值模擬;著重研究了線偏振的高斯光束通過固體浸沒透鏡的光傳輸和近場光場分佈特性;分析了固體浸沒透鏡底面出射光強、光斑直徑隨固體浸沒透鏡折射率的變化、光透過固體浸沒透鏡后的強度、光斑直徑隨離開固體浸沒透鏡底面距離的變化。For this reason, the ultrahigh density optical disk data storage technologies based on the solid immersion lens technology and the sb film super resolution technology, which appear more promising to industrialize in the short term, have been studied in this paper. the aim of this paper is to develop the key technologies for next generation optical disc data storage system
本文圍繞超高密度光盤數據存儲技術中的固體浸沒透鏡存儲技術以及基於sb多層膜的介質超分辨高密度光存儲技術展開研究,其目的在於通過對這兩種最接近實用化的近場高密度光存儲技術的研究,掌握和發展下一代超高密度光存儲設備的關鍵技術。Equipped with a specially designed digital control system, the new pick - up and recording head can perform the basic functions of optical data storage, and is used for further experiment with sil and sb super - rens technology. with modified optical pick - up and recording head, a study is made on sil data storage technology. a new remelting process is proposed to overcome the difficulty of manufacturing ball lens with the radius smaller than 0. 5mm
結合高密度光存儲實驗的具體要求,為改裝后的光學頭設計了專用伺服控制系統,刻錄實驗結果說明建立的數據存儲光學頭系統能很好的完成光學頭系統各種基本功能,其成功建立為進一步的sil存儲實驗以及介質超分辨存儲實驗提供了基本的光存儲刻錄光學系統。Meanwhile, a method for rapid thermal fixing is presented, which has some advantages over conventional technique in stability and repeatability, while shortened the fixing time. secondly, we have designed and made a compact practical holographic system that consists of angular - fractal multiplexing system and thermal fixing equipment, including a crystal repositioner with precision less than 0. 001
另一方面,圍繞高密度全息存儲設計復用存儲技術,製作了有較大存儲能力的小型實用熱固定全息系統,包括角度一維度復用系統、離線加熱的晶體夾持器和復位裝置、適合離線與在線加熱的溫控加熱裝置。These light sources have promising applications and potential market demands for the high - density storage of opto - information, high - speed laser print, high - brightness and dynamic display in all colors, solid light sources, signal detectors and communication
這類光源在高密度光信息存儲、高速激光列印、全色動態高亮度光顯示、固體照明光源、高亮度信號探測、通訊等方面有著廣闊的應用前景和巨大的市場潛力。So, knbo3 is found to be one of the most important crystals for the generation of blue light research on the generation of blue lasers has become a focus because of its important applications and potential commercial value in many fields, such as high - density optical storage, numeric video - frequency technique, color - laser vision, laser typography, laser medicine and material science and so on
而此藍光激光源在激光製冷、高密度光儲存、數字視頻技術、彩色激光顯示及激光印刷術、激光醫學、材料科學等許多領域都有著重要應用和潛在市場,所以對藍光激光源的研究也越來越廣泛和深入。Due to its supper - resolution imaging ability and its unique three - dimensional microfabrication ability. it has been widely used in life science, 3d - optical data storage, and lithographic microfabrication. the imaging principles of confocal microscopy have been discussed extensively by many authors, but all of those theories did n ' t account for the nonlinear effect of two - photon excitation
近十多年來,其理論研究和應用研究都取得很大進展,特別是雙光子共焦顯微鏡,由於具有極高的空間解析度和特有的三維處理能力,因而在生物醫學研究、三維高密度存儲以及三維微細加工等領域具有變革性的應用潛力,取得了許多突破性進展,已成為光學及其交叉學科中最誘人、最活躍的研究領域之一。Therefore, the waveguide optical modes in the semiconductor lasers with different waveguide structures are investigated by means of optical waveguide theory. with the development of fabrication and packaging techniques, the dimensions of optoelectronic and photonic systems have become smaller and smaller. the far - field radiation models are no longer suitable for the near - field distribution of semiconductor lasers
隨著製作工藝和封裝技術的發展,光電系統和光子系統的尺寸越來越小,半導體激光輻射的遠場模型不再適合其近場特性的分析;而且,半導體激光器可以作為近場虛擬光探針,應用於近場光學高密度存儲、納米光刻、近場光學成像以及光譜探測等領域。In the last twenty years, extensive studies have been made on the structure, basic magnetic properties, interlayer coupling, interfacial structures and its relative effects in magnetic thin and ultrathin films due to their potential application in magnetic random access memory ( mram ) and ultrahigh - density data storage
隨著在磁性隨機存儲器和超高密度存儲技術中應用的不斷拓展,近二十年來,磁性薄膜和超薄膜的結構、基本磁性、層間耦合、界面狀況及其相關效應一直是人們研究的熟點和難點之一。The ability to store multiple holograms within a small volume of a storage material and to retrieve data pages with thousands of bits in parallel provides an attractive combination of high density and fast speed
體全息存儲是一種適合高密度數據存儲的光學存儲技術,它同時具有存儲密度高、數據傳輸率高、數據搜索時間短等優勢。In recent years, short - wavelength solid - state lasers in the ultraviolet to green spectral range have attracted much attention due to a wide range of applications including high - density optical data storage, all color displays, undersea communications, biomedicine and infrared sensors
作為光電子產業的核心器件之一,緊湊型全固體短波長激光器在高密度光學存儲、全色激光顯示、海底通信、生物醫學和光譜學等領域具有廣闊的應用前景。Blue laser is very valuable for military, communication, high - density optical storage, information, colorful display of laser % colorful printing and biochemistry. for example, blue laser of 475nm can be used for seabed research and communication of submarine
藍色激光器在軍事、通訊、信息業、彩色列印、高密度光存儲、激光顯示及生物化學方面有著重要的應用價值,比如說海水的透射窗口落在藍綠色激光范圍內,俗稱「海軍藍」的475nm藍色激光器可成為海地探測和對潛通信的有效手段。Therefore, the noise such as crystal scattering due to long exposure time can be suppressed, and storage capability and fidelity can be improved. the high - density holographic storage system, including on - line and off - line heating units, has been designed and implemented for our experiments
研製了包括在線與離線小型精密溫控加熱裝置、晶體夾持器和角度? ?分維復用光學讀寫系統等主要部分的高密度全息存儲的熱固定系統,該系統操作靈活並具有實用性,其存儲能力不少於10000幅全息圖。This system can be used to store no less than 10000 holograms, and it is flexible and practical to operate. we stored 1
證實了分批存儲熱固定是實現高衍射效率和高圖像質量的高密度全息存儲的優選方案。In the thesis, the technical process of batch thermal fixing for high - density holographic storage in photorefractive materials has been proposed based on the comparison between the two basic schemes of thermal fixing, post - recording fixing and fixing while recording
本論文分析比較了同時記錄補償和記錄后補償這兩種基本熱固定方法各自的特點,並且依據所在研究組獨立提出的分批熱固定的概念,研究了高密度全息存儲的分批熱固定方法及其流程。Advances on research of ultra high density probe storage
超高密度探針存儲技術的研究進展Ultra - high density data storage on a novel all - organic complex thin film
對一種新型全有機復合薄膜的超高密度信息存儲研究The research interests in this team are nonlinear optics at low light intensities, including photorefractive nonlinear optics ( photorefractive materials, effects and their applications ), optical storage materials, nonvolatile optical recording technology and mechanics with high recording rates, high data density and high data transfer rates, nonlinear dispersive system and the dynamic propagation properties of photons in such dispersive system, and nonlinear optical properties of phasonian systems such as electromegnetically induced transperancy
本實驗室目前從事弱光光學非線性方面的研究:主要包括光折變非線性材料、效應以及應用;超快超高密度光存儲材料、非揮發存儲技術及其機理;非線性色散系統以及光子在非線性色散系統中的傳播動力學;量子相干系綜中的非線性光學性質如電磁感應透明等幾個方面的研究。The field distribution and propagation properties in sil system is analysed, and the relationship between the focusing spot size and the defocusing amount is also described. moreover, a novel model is proposed on basis of the fdtd analysis that can make us increase the distance between sil and recording medium without decreasing the recording density
模擬的過程中還發現,在小尺寸sil透鏡(半徑為波長量級)離焦時,系統焦點可以被推移到離sil底面較遠的位置而不會產生大的解析度損失,根據該結果我們提出了一種增大sil底面與存儲介質間距的方案,該方案對于sil高密度光存儲系統的實用化研究具有重要意義。分享友人