Electron–positron momentum density distribution of Gd from 2D ACAR data via Maximum Entropy and Cormack’s methods

M. Pylak; G. Kontrym-Sznajd; L. Dobrzyński

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Electron–positron momentum density distribution of Gd from 2D ACAR data via Maximum Entropy and Cormack’s methods

机译：通过最大熵和Cormack方法从二维ACAR数据得到的d的电子-正电子动量密度分布

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A successful application of the Maximum Entropy Method (MEM) to the reconstruction of electron–positron momentum density distribution in gadolinium out of the experimental of 2D ACAR data is presented. Formally, the algorithm used was prepared for two-dimensional reconstructions from line integrals. For the first time the results of MEM, applied to such data, are compared in detail with the ones obtained by means of Cormack’s method. It is also shown how the experimental uncertainties may influence the results of the latter analysis. Preliminary calculations, using WIEN2k code, of band structure and Fermi surface have been done as well.

机译：提出了最大熵方法（MEM）在二维ACAR数据实验之外重构to中电子-正电子动量密度分布的成功应用。正式地，所使用的算法是为从线积分进行二维重建而准备的。首次将应用于此类数据的MEM结果与通过Cormack方法获得的结果进行了详细比较。还显示了实验不确定性如何影响后面的分析结果。还使用WIEN2k代码对能带结构和费米表面进行了初步计算。

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《Applied Physics A: Materials Science & Processing》 |2011年第2期|p.587-592|共6页
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M. Pylak; G. Kontrym-Sznajd; L. Dobrzyński;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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1. Electron-positron momentum density distribution of Gd from 2D ACAR data via Maximum Entropy and Cormack's methods [J] . M. Pylak, G. Kontrym-Sznajd, L. Dobrzynski Applied Physics . 2011,第2期

机译：二维ACAR数据通过最大熵和Cormack方法得出的Gd的电子-正电子动量密度分布
2. Reconstruction of Momentum Density Distribution from 2D ACAR Data via Maximum Entropy and Cormack Methods [J] . M. Pylak, L. Dobrzyriski, G. Kontrym - Sznajd Materials Science Forum . 2011,第期

机译：通过最大熵和Cormack方法从二维ACAR数据重建动量密度分布
3. Study on the Electron-Positron Momentum Density and Fermi Surface in Hf Using the 2D-ACAR Experiment [J] . A. S. Abdul Hamid, S. Tanigawa Physica status solidi, B. Basic research . 1999,第2期

机译：利用2D-ACAR实验研究H中的电子正电子动量密度和费米表面
4. Reconstruction of Momentum Density Distribution from 2D ACAR Data via Maximum Entropy and Cormack Methods [C] . M. Pylak, L. Dobrzynski, G. Kontrym - Sznajd Progress in positron annihilation . 2010

机译：通过最大熵和Cormack方法从二维ACAR数据重建动量密度分布
5. Structural and electron density changes in dense guest-host systems: Analysis of X-ray diffraction data by the Rietveld and Maximum Entropy Methods. [D] . Flacau, Roxana Ioana. 2007

机译：致密客体系统中的结构和电子密度变化：通过Rietveld和最大熵方法分析X射线衍射数据。
6. Two-dimensional distributions of activation enthalpy and entropy from kinetics by the maximum entropy method. [O] . P J Steinbach 1996

机译：最大熵法从动力学的活化焓和熵的二维分布。
7. Electron Momentum Distribution Mapping of Trans-Stilbene Projected to 101 by Positron 2D-ACAR [O] . Selvakumar S., Sivaji K., Smith S.V. 2012

机译：正电子2D-ACAR投射至101的反式-二苯乙烯的电子动量分布图
8. Positron 2D-ACAR experiments and electron-positron momentum density in YBa2Cu3O(7-x) [R] . Smedskjaer, L. C., Welp, U., Fang, Y., 1991

机译：正电子2D-aCaR实验和YBa2Cu3O（7-x）中的电子 - 正电子动量密度

Electron–positron momentum density distribution of Gd from 2D ACAR data via Maximum Entropy and Cormack’s methods

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