low temperature specific heat 中文意思是什麼
low temperature specific heat
解釋
低溫比熱- low : adj 1 低的;淺的,矮的。 low flight 低飛。 a low temperature 低溫。 low tide [water] 低潮。 The g...
- temperature : n. 1. 溫度,氣溫。2. 體溫。3. 〈口語〉發燒,高燒。
- specific : adj 1 特殊的;特有的;特定的,專門的。2 明確的,具體的。3 【生物學】種的;【細菌】專性的。4 【醫...
- heat : n 1 熱;熱力;熱度;熱量。2 體溫;發燒。3 (氣候的)高溫,暑氣。4 【冶金】熔煉的爐次;裝爐量;一...
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Because the lattice vibration is weak at very low temperature, the contributions of electrics and other low energy excitations become dominant parts of specific heat. therefore, we can study the micromechanism of many physical phenomena from specific heat measurement
在很低的溫度下,由於晶格振動變得很弱,電子和低能激發貢獻越來越突出,這對我們通過低溫比熱研究很多現象的微觀機制十分有利。 -
Unlike the low temperature superconductors, heat accumulation in a specific volume is more likely the main cause of quenches for the high temperature superconductive ( hts ) coils
摘要不同於低溫超導體,在高溫超導線圈中,一定體積內的熱積累是造成失超的較主要原因。 -
The measuring of low - temperature specific heat is an important and effective method to study the structure of electronic states, the atomic vibration of lattice, phase transition and structure of grain boundary
低溫比熱測量是研究固體的電子能態結構、原子點陣振動狀態、相變、界面結構等信息的重要的且很有效的手段之一。 -
The entropy or number of states of system or subsystem are closely related to interaction of particles and energy level distribution, therefore, to study the temperature dependence of the specific heat may supply some important and useful microscopic information which may play an important role in understanding electronic structure, density of state, phonon spectrum etc. the specific heat measurements at low temperatures also play important roles in the finding of the third law of thermodynamics, the quantum theory of solid and bcs theory for superconducting etc. moreover, specific heat measurements help us to understand the different kinds of phase transitions ( such as : structural phase transition, magnetic phase transition, superconducting phase transition etc. ) and the scaling behavior near the critical point
系統、子系統的熵或微觀狀態數與微觀粒子間的相互作用及能級分佈密切相關,因此研究比熱與溫度的依賴關系能夠提供被測量系統許多極其有用的微觀信息,對理解固體的電子結構、電子態密度、聲子譜等起著十分重要的作用。低溫比熱的測量和研究對熱力學第三定律、固體量子理論和超導bcs等理論的建立起到了積極的推動作用。比熱研究還有助於認識各類相變如結構相變,磁性相變,超導相變等及臨界點附近的標度規律。 -
Research in low - temperature magnetic behavior caused by superexchange interactions among transition metal ions in various compounds, including the experimental measurement of magnetic susceptibility and specific heat
研究領域:過渡金屬離子化合物之合成與磁性研究,包括低溫磁化率與低溫比熱之量測。 -
We have measured the low - temperature specific heat of mgb2, and analyzed thoroughly its lattice and electronic contribution respectively
本文測量了低溫下mgb2的比熱,並詳盡分析了mgb2的晶格比熱和電子比熱。 -
We put our emphases on four sections : the opening of the energy gap and its effects on the thermodynamic properties in low temperature, quantum fluctuation and the hidden long - distance order parameters, the magnetization and the specific heat properties under the extern magnetic field of the ferromagnetic chain, and the energy spectrum of the ferromagnetic ladder
著重研究在一維量子自旋系統中的能隙的打開、以及能隙對系統熱力學性質的影響;量子漲落和系統隱含的序參量;亞鐵磁的在外場下的磁化性質以及比熱性質;和亞鐵磁雙鏈系統中的能譜。 -
We prove the general characters of gapped system in low temperatures again : near zero temperature, the specific heat and uniform susceptibility take on exponent behavior
我們再一次驗證了有能隙系統在低溫下的普遍特徵:在零溫附近,比熱和零場下的磁化率隨溫度表現為指數上升的現象。 -
In addition, the specific heat c have been manipulated under control of dimensionality, i. e the chemical potential have been discussed in lower - dimension system. the results is interesting that, dose not intend to fermi energy f when temperature is very low in 2d, whereas is a constant in 1d
對于低維情況的化學勢的討論,我們得到:在二維情況下,當溫度很低時,化學勢不再趨于fermi能量;在一維情況下,為常數(諧振子勢場的頻率一定) 。
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