quantum fluid 中文意思是什麼
quantum fluid
解釋
量子鈴-
" for their discovery of a new form of quantum fluid with fractionally charged excitations
發現並研究電子的分數量子霍爾效應 -
Then by taking use of the method proposed by susskind and polychronakos, we gave out the non - commutative chern - simons theory to describe the incompressible quantum hall fluid on 52 and its algebraic sturcture. we also discussed the generalization of the description of the incompressile quantum hall fluid to s4
然後,利用susskind和polychronakos提出的辦法,我們給出在s ~ 2上描述不可壓縮量子hall流體的非對易陳- simons理論及其代數結構,同時,我們還討論了不可壓縮量子hall流體的描述在s ~ 4上的推廣。 -
In 1860, schrodinger first put forward the concept " schrodinger equations " in quantum mechanics and since then, the study on schrodinger equations has never stopped, for the mathematical description of many physical phenomena belongs to the field of schrodinger equations, such as nonlinear optic, plasma physics, fluid mechanics etc. as for the form of schrodinger equations, linear schrodinger equations was gradually replaced by nonlinear schrodinger equations ; as for the methods of solving schrodinger equations, the modulus estimate of energy, the principle of contraction mapping, fourier transformation and harmonic analysis are used ; as for the space of the solutions, many people have worked on the problem in bounded domain, euclidean space of dimension n, periodic bounded conditions and mixed regions and they also combined it with the generalization from low dimension to high dimension
) dinger方程,如非線性光學、等離子物理、流體力學[ 21 ]等;在方程形式上,從線性schr ( ? ) dinger方程到非線性schr ( ? ) dinger方程;在處理方法上,用能量模估計、壓縮映象原理和fourier變換調和分析等;在方程解空間上,研究有界區域、 n維歐氏空間、周期性有界區域和混合區域等,並且結合從低維向高維推廣。 -
It has raised more attentions in engineer fields, specially in signal analysis, images handles, pattern recognition, phonetic recognition, quantum physics, earthquake reconnaissance, fluid mechanics, electromagnetic field, ct imagery, diagnosis and monitoring of machinery defect, fractal, numerical evaluation et al. it is considered as important breakthrough in methods and tools
它在科學技術界引起了越來越多的關注和重視,在工程應用領域,特別是在信號處理、圖像處理、模式識別、語音識別、量子物理、地震勘測、流體力學、電磁場、 ct成像、機械故障診斷與監控、分形、數值計算等領域,它被認為是近年來在工具及方法上的重大突破。
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