Mapping the local nanostructure inside a specimen by tomographic small-angle x-ray scattering

被引：95

作者：

Schroer, CG

Kuhlmann, M

Roth, SV

Gehrke, R

Stribeck, N

Almendarez-Camarillo, A

Lengeler, B

机构：

[1] DESY, HASYLAB, D-22607 Hamburg, Germany

[2] Univ Hamburg, Inst Tech & Mol Chem, D-20146 Hamburg, Germany

[3] Univ Aachen, Inst Phys 2, D-52056 Aachen, Germany

来源：

APPLIED PHYSICS LETTERS | 2006年 / 88卷 / 16期

关键词：

D O I：

10.1063/1.2196062

中图分类号：

O59 [应用物理学];

学科分类号：

摘要：

Small-angle x-ray scattering is combined with scanning microtomography to reconstruct the small-angle diffraction pattern in the direction of the tomographic rotation axis at each location on a virtual section through a specimen. These data yield information about the local nanoscale structure of the sample. With rotational symmetry present in the diffraction patterns, e.g., for isotropic or fiber-textured scatterers, the full reciprocal space information in the small-angle scattering regime can be reconstructed at each location inside the specimen. The method is illustrated investigating a polymer rod made by injection molding. (c) 2006 American Institute of Physics.

引用

收藏

页数：3

相关论文

共 15 条

[1] Nondestructive three-dimensional elemental microanalysis by combined helical x-ray microtomographies [J].

Golosio, B ;

Somogyi, A ;

Simionovici, A ;

Bleuet, P ;

Susini, J ;

Lemelle, L .

APPLIED PHYSICS LETTERS, 2004, 84 (12) :2199-2201

[2] Internal elemental microanalysis combining x-ray fluorescence, Compton and transmission tomography [J].

Golosio, B ;

Simionovici, A ;

Somogyi, A ;

Lemelle, L ;

Chukalina, M ;

Brunetti, A .

JOURNAL OF APPLIED PHYSICS, 2003, 94 (01) :145-156

[3]

Kak A.C. Slaney M., 1999, PRINCIPLES COMPUTERI

[4] Refractive x-ray lenses [J].

Lengeler, B ;

Schroer, CG ;

Kuhlmann, M ;

Benner, B ;

Guenzler, TF ;

Kurapova, O ;

Zontone, F ;

Snigirev, A ;

Snigireva, I .

JOURNAL OF PHYSICS D-APPLIED PHYSICS, 2005, 38 (10A) :A218-A222

[5] Application of quantitative fluorescence and absorption-edge computed microtomography to image metal compartmentalization in Alyssum murale [J].

McNear, DH ;

Peltier, E ;

Everhart, J ;

Chaney, RL ;

Sutton, S ;

Newville, M ;

Rivers, M ;

Sparks, DL .

ENVIRONMENTAL SCIENCE & TECHNOLOGY, 2005, 39 (07) :2210-2218

[6] New avenues in x-ray microbeam experiments [J].

Riekel, C .

REPORTS ON PROGRESS IN PHYSICS, 2000, 63 (03) :233-262

[7] Self-assembled gradient nanoparticle-polymer multilayers investigated by an advanced characterization method:: microbeam grazing incidence x-ray scattering [J].

Roth, SV ;

Burghammer, M ;

Riekel, C ;

Müller-Buschbaum, P ;

Diethert, A ;

Panagiotou, P ;

Walter, H .

APPLIED PHYSICS LETTERS, 2003, 82 (12) :1935-1937

[8] Mapping the chemical states of an element inside a sample using tomographic x-ray absorption spectroscopy [J].

Schroer, CG ;

Kuhlmann, M ;

Günzler, TF ;

Lengeler, B ;

Richwin, M ;

Griesebock, B ;

Lützenkirchen-Hecht, D ;

Frahm, R ;

Ziegler, E ;

Mashayekhi, A ;

Haeffner, DR ;

Grunwaldt, JD ;

Baiker, A .

APPLIED PHYSICS LETTERS, 2003, 82 (19) :3360-3362

[9] Fluorescence microtomography:: External mapping of elements inside biological samples [J].

Schroer, CG ;

Tümmler, J ;

Günzler, TF ;

Lengeler, B ;

Schröder, WH ;

Kuhn, AJ ;

Simionovici, AS ;

Snigirev, A ;

Snigireva, I .

PENETRATING RADIATION SYSTEMS AND APPLICATIONS II, 2000, 4142 :287-296

[10] Reconstructing x-ray fluorescence microtomograms [J].

Schroer, CG .

APPLIED PHYSICS LETTERS, 2001, 79 (12) :1912-1914