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Results: 1 to 20 of 102

1.

Sample thickness determination by scanning transmission electron microscopy at low electron energies.

Volkenandt T, Müller E, Gerthsen D.

Microsc Microanal. 2014 Feb;20(1):111-23. doi: 10.1017/S1431927613013913. Epub 2013 Dec 13.

PMID:
24331292
[PubMed]
2.

Quantification of sample thickness and in-concentration of InGaAs quantum wells by transmission measurements in a scanning electron microscope.

Volkenandt T, Müller E, Hu DZ, Schaadt DM, Gerthsen D.

Microsc Microanal. 2010 Oct;16(5):604-13. doi: 10.1017/S1431927610000292. Epub 2010 Jul 16.

PMID:
20633317
[PubMed]
3.

Low-energy electron scattering in carbon-based materials analyzed by scanning transmission electron microscopy and its application to sample thickness determination.

Pfaff M, Müller E, Klein MF, Colsmann A, Lemmer U, Krzyzanek V, Reichelt R, Gerthsen D.

J Microsc. 2011 Jul;243(1):31-9. doi: 10.1111/j.1365-2818.2010.03475.x. Epub 2010 Dec 13.

PMID:
21155995
[PubMed]
4.

Atomic-resolution scanning transmission electron microscopy through 50-nm-thick silicon nitride membranes.

Ramachandra R, Demers H, de Jonge N.

Appl Phys Lett. 2011 Feb 28;98(9):93109. Epub 2011 Mar 2.

PMID:
21448256
[PubMed]
Free PMC Article
5.

Monte Carlo feasibility study of orthogonal bremsstrahlung beams for improved radiation therapy imaging.

Jabbari K, Sarfehnia A, Podgorsak EB, Seuntjens JP.

Phys Med Biol. 2007 Feb 21;52(4):1171-84. Epub 2007 Jan 30.

PMID:
17264378
[PubMed - indexed for MEDLINE]
6.
7.

Electron mass scattering powers: Monte Carlo and analytical calculations.

Li XA, Rogers DW.

Med Phys. 1995 May;22(5):531-41.

PMID:
7643788
[PubMed - indexed for MEDLINE]
8.

Use of Monte Carlo modeling to aid interpretation and quantification of the low energy-loss electron yield at low primary energies.

Bonet C, Pratt A, El-Gomati MM, Matthew JA, Tear SP.

Microsc Microanal. 2008 Oct;14(5):439-50. doi: 10.1017/S1431927608080719.

PMID:
18793488
[PubMed]
9.

The influence of the sample thickness on the lateral and axial resolution of aberration-corrected scanning transmission electron microscopy.

Ramachandra R, Demers H, de Jonge N.

Microsc Microanal. 2013 Feb;19(1):93-101. doi: 10.1017/S143192761201392X. Epub 2013 Jan 7.

PMID:
23290505
[PubMed]
10.
11.

Experimental quantification of annular dark-field images in scanning transmission electron microscopy.

Lebeau JM, Stemmer S.

Ultramicroscopy. 2008 Nov;108(12):1653-8. doi: 10.1016/j.ultramic.2008.07.001. Epub 2008 Jul 15.

PMID:
18707809
[PubMed]
12.

Quantitative atomic resolution scanning transmission electron microscopy.

LeBeau JM, Findlay SD, Allen LJ, Stemmer S.

Phys Rev Lett. 2008 May 23;100(20):206101. Epub 2008 May 23.

PMID:
18518557
[PubMed]
13.

Simulation study on image contrast and spatial resolution in helium ion microscope.

Inai K, Ohya K, Ishitani T.

J Electron Microsc (Tokyo). 2007 Oct;56(5):163-9. Epub 2007 Nov 6.

PMID:
17989086
[PubMed - indexed for MEDLINE]
14.

Monte Carlo simulation of topographic contrast in scanning ion microscope.

Ohya K, Ishitani T.

J Electron Microsc (Tokyo). 2004;53(3):229-35.

PMID:
15332649
[PubMed - indexed for MEDLINE]
15.

Quantitative atomic resolution mapping using high-angle annular dark field scanning transmission electron microscopy.

Van Aert S, Verbeeck J, Erni R, Bals S, Luysberg M, Van Dyck D, Van Tendeloo G.

Ultramicroscopy. 2009 Sep;109(10):1236-44. doi: 10.1016/j.ultramic.2009.05.010. Epub 2009 May 27.

PMID:
19525069
[PubMed]
16.

Quantitative composition determination at the atomic level using model-based high-angle annular dark field scanning transmission electron microscopy.

Martinez GT, Rosenauer A, De Backer A, Verbeeck J, Van Aert S.

Ultramicroscopy. 2014 Feb;137:12-9. doi: 10.1016/j.ultramic.2013.11.001. Epub 2013 Nov 9.

PMID:
24270003
[PubMed]
17.

Quantitative annular dark field electron microscopy using single electron signals.

Ishikawa R, Lupini AR, Findlay SD, Pennycook SJ.

Microsc Microanal. 2014 Feb;20(1):99-110. doi: 10.1017/S1431927613013664. Epub 2013 Oct 29.

PMID:
24168987
[PubMed]
18.

Shielding effects of metallic encapsulations and radiographic contrast agents for catheter-based intravascular brachytherapy.

Nath R, Yue N.

Cardiovasc Radiat Med. 2001 Apr-Jun;2(2):93-103.

PMID:
11340013
[PubMed - indexed for MEDLINE]
19.

Low-Z target optimization for spatial resolution improvement in megavoltage imaging.

Connell T, Robar JL.

Med Phys. 2010 Jan;37(1):124-31.

PMID:
20175473
[PubMed - indexed for MEDLINE]
20.
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