稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2003年
10期
773-776
,共4页
TFD(托马斯-费米尔-迪拉克)%电子密度%内应力
TFD(託馬斯-費米爾-迪拉剋)%電子密度%內應力
TFD(탁마사-비미이-적랍극)%전자밀도%내응력
Thomas-Fermi-Dirac (TFD)%electron density%internal stress
Oliver G.Schmidt和Karl Eberl在自然杂志上发表了1个重要的发现:几乎对于任何材料的固体薄膜,一旦薄膜从基体上剥离开,几乎在任意部位都可以形成纳米管,这个试验结果可以用TFDC(托马斯-费米尔-迪拉克-程氏)电子理论来解释.
Oliver G.Schmidt和Karl Eberl在自然雜誌上髮錶瞭1箇重要的髮現:幾乎對于任何材料的固體薄膜,一旦薄膜從基體上剝離開,幾乎在任意部位都可以形成納米管,這箇試驗結果可以用TFDC(託馬斯-費米爾-迪拉剋-程氏)電子理論來解釋.
Oliver G.Schmidt화Karl Eberl재자연잡지상발표료1개중요적발현:궤호대우임하재료적고체박막,일단박막종기체상박리개,궤호재임의부위도가이형성납미관,저개시험결과가이용TFDC(탁마사-비미이-적랍극-정씨)전자이론래해석.
An important experiment was reported in Nature by Oliver G. Schmidt and Karl Eberl: nanotubes can be formed fromthin solid films of almost any material at almost any position, once these films are released from their substrate. This result can beexpounded on the ground of the Thomas-Fermi- Dirac-Cheng (TFDC) electron theory.