condensed matter physics 中文意思是什麼
condensed matter physics
解釋
凝聚態物理學-
A common problem in theoretical chemistry, condensed matter physics and materials science is the calculation of the time evolution of an atomic scale system where, for example, chemical reactions and / or diffusion occur
一個在理論化學方面的很普通的問題,涉及到凝聚體物理學、材料科學,例如:化學反應和擴散發生的時間。 -
Zhao jiamin ( condensed matter physics ) directed by prof. wang lijun the organic electroluminescence ( el ) device with microcavity ( moled ) can take on some new characteristics, such as narrowed spectrum, intensity enhancement, sharply directed emission in space, due to the microcavity effects compared with the common device without cavity ( oled )
將微腔引入有機電致發光器件中,由於微腔效應的存在,可以獲得多種不同於普通發光器件的發光特性,象譜線窄化,強度增強,發光方向性增強等。 -
Dongxu zhao ( condensed matter physics ) directed by prof. dezhen shen and prof. yichun liu zinc oxide ( zno ) is a wide band - gap semiconductor ( 3. 37 ev at room temperature ) with the high exciton binding energy of 60 mev
= zno是一種寬帶隙的半導體材料,室溫下它的能隙寬度為3 . 37ev ,激子束縛能高達60mev 。 -
The results can be used to accurately extract the nuclear matrix of the astrophysically significant 7be + e - - 7li + v reaction. the method we used may find important application in condensed matter physics
這一結果可用於精確抽取在核天體物理中有重要意義的反應7be + e - 7li + v的原子核矩陣元。 -
He was exceptionally appointed to an associated professor in physics when he was 29 years old in 1987 due to his outstanding research in theoretical condensed matter physics
由於他在理論凝聚態(理論物理)方面的出色研究,他於1987年被破格提升為副教授,是年29歲,屬當時全國為數不多的幾個。 -
It is the underlying mathematical framework of many fields of physics and chemistry, including condensed matter physics, atomic physics, molecular physics, computational chemistry, quantum chemistry, particle physics, and nuclear physics
它是許多物理學和化學領域的根本數學框架,包括濃縮物質物理學、原子物理學、分子物理學、計算化學、量子化學、粒子物理學和核子物理學。 -
The development of soft matter physics indicates the progress of condensed matter physics in the 21st century
軟物質物理代表了21世紀凝聚態物理發展的重要趨勢,膜和泡則是重要的軟物質。 -
Magneto - electronics lies in the area of current scientific interest in condensed matter physics and material sciences, due to abundant physical conceptions and applied potentials. it is a base of magnetic devices with high density and sensitivity. recently, non - volatile magnetic computer memory ( mram ) is expected to have a large economic impact, and has been significantly focused on its experimenatal research
目前,非揮發性磁存儲記憶器件?磁存儲器magneticrandomaccessmemory ( mram )的研究和開發已成為自旋電子學研究的主要應用目標;而在室溫和低磁場下,具有足夠大的磁電阻( mr )效應成為實現mram器件應用的前提。 -
The colossal magnetoresistance ( cmr ) behaviors in perovskite - manganese oxides have attracted great attention due to both fundamental theory of condensed matter physics and potential applications of cmr materials in magnetic devices, e. g.,
鈣鈦礦結構錳氧化物材料所表現出的巨磁電阻效應( cmr ) ,在提高磁存儲密度以及磁傳感器等方面具有十分廣闊的應用前景。近幾年,受到全世界的廣泛關注。 -
Quantum spin systerm in low dimensions has been one of the most attractive field in condensed matter physics for many decades. not only because of many meaningful properties of such systerms, but also in the field the existence of simplified models, which serve as paradigms for understanding and studying the role of strong interactions in many - electron systems
近年來,低維量子自旋系統一直是凝聚態物理學中最活躍的研究領域之一,不僅因為它自身的一些特殊性質,而且因為其中存在著許多簡化模型,能夠作為理解研究強關聯多電子系統的範例。 -
Clusters are the aggregates of a few to thousands atoms or molecules or ions their properties are neither like those for individual atoms nor the corresponding bulk and therefore clusters are named " the fifth state of the matter ". during the development of cluster science, many concepts and methods have been introduced from nuclear physics, condense matter physics and quantum chemistry, cluster science has became an new interdisciplinary field between atomic - molecular physics and condensed matter physics
團簇( clusters )是由2 104個原子、分子或離子通過物理或化學結合力組成的相對穩定的微觀和亞微觀聚集體,它的空間尺度在幾a至幾百a范圍內,被人們看作是介於原子分子和宏觀固體之間物質結構的新層次,並稱之為物質的「第五態」 。 -
Wang zijun ( condensed matter physics ) directed by prof. zhong guozhu and li wenlian hotly studied organic thin film electroluminescence, because of its ultra high brightness and efficiency, reminds man to consider the possibility of realizing organic semiconducting laser diods
熱點研究的有機薄膜電致發光,由於極高的亮度和效率,使人聯想有機半導體薄膜激光二極體的可能性。率先的突破是在單晶上作出的,用了場效應注入雙電極。 -
Phase transition and critical phenomena in condensed matter physics and statistical physics is a quite important field of inquiry
相變和臨界現象是凝聚態物理學和統計物理學中十分活躍和重要的研究領域。 -
Professor tsui was elected to the national academy of science in 1987, is a fellow of the american physical society and of the american association for the advancement of science, and a recipient of its buckley prize for condensed matter physics
崔教授於1987年當選美國國家科學院院士,也是美國物理學會以及美國科學促進協會的院士。他獲美國物理學會頒授巴克利大獎,表揚他在凝聚物質物理學所作的貢獻。 -
Frustrated, some have turned to an unexpected source for guidance : condensed - matter physics, the study of common substances such as crystals and fluids
於是在挫折之餘,有些人便轉向一條出人意表之路:凝態物理(也就是研究如晶體或流體這些一般物質的學問) ,以尋求指引。 -
Professor tsui s outstanding work in physics and electronic engineering has brought him numerous prestigious awards. besides the nobel prize in physics, he has also received the american physical society oliver buckley prize for condensed matter physics and the benjamin franklin medal in physics
崔琦教授在物理學和電子工程學方面成就卓著,除獲諾貝爾物理學獎外,並獲頒美國物理學會巴克利大獎及富蘭克林獎等多項國際知名的獎譽。 -
The physical property of electron - phonon interaction systems is one of the fundamental problems in condensed matter theory. its development and perfection will profit the solving of some important problems in the areas of condensed matter physics, materials physics, protein molecular dynamics as well as other related subjects. so the study of the nonlinear lattice effects in electron - phonon interaction systems has been received extensive attention of many researches in the past years
電子-聲子耦合系統的物理特性是凝聚態理論中的一個基本問題,它的發展和完善可能為凝聚態物理與材料物理領域及蛋白質分子生物學等交叉學科領域中一些重要問題的解決帶來一定的啟示甚至突破性的進展,因而近幾年來電子-聲子耦合系統中晶格非線性效應的研究受到人們的廣泛關注。 -
Beside the cmr effect, these materials also exhibit intriguing physical properties such as insulator - metal and / or structure transition induced by applied magnetic - field or photo radiation, charge ordering, orbital ordering, and phase separation etc. the full understanding of these properties will definitely stimulate the progress of condensed matter physics
同時,這類材料還表現出諸如磁場或光誘導的絕緣體-金屬轉變,電荷有序、軌道有序、以及相分離等十分豐富的物理內容,涉及到凝聚態物理的許多基本問題,一旦解決了這些問題的微觀物理機制,必將對凝聚態物理的發展和完善起到巨大的推動作用。 -
Specific heat is one of the most important parameters in condensed matter physics
比熱是凝聚態物質最重要的宏觀參量之一。 -
Condensed matter physics
凝聚態物理
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