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来源机构: Applied Optics
来源目录: Applied Optics
发布日期: Feb 11, 2019
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OSA | Measurement of the inner diameter of monocapillary with confocal x-ray scattering technology based on capillary x-ray optics

References. View by:. Article Order. Year. Author. Publication. V. R. Albertini, B. Paci, A. Generosi, S. B. Dabagov, O. Mikhin, and M. A. Kumakhov, “On the use of polycapillary structures to improves laboratory energy-dispersive x-ray diffractometry and reflectometry,” Spectrochim. Acta B 62, 1203–1207 (2007). [Crossref] . A. Bjeoumikhov, M. Erko, S. Bjeoumikhova, A. Erko, I. Snigireva, A. Snigirev, T. Wolff, I. Mantouvalou, W. Malzer, and B. Kanngießer, “Capillary focus x-ray lens with parabolic and elliptic profile,” Nucl. Instrum. Methods Phys. Res. A 587, 458–463 (2008). [Crossref] . T. Sun, Z. Liu, and X. Ding, “An energy dispersive micro x-ray diffractometer based on a combined system of polycapillary optics,” Nucl. Instrum. Methods Phys. Res. B 226, 651–658 (2004). [Crossref] . D. H. Bilderback and R. Huang, “X-ray tests of microfocusing mono-capillary optic for protein crystallography,” Nucl. Instrum. Methods Phys. Res. A 467, 970–973 (2001). [Crossref] . B. Jiang, Z. Liu, X. Sun, T. Sun, B. Deng, F. Li, L. Yi, M. Yuan, Y. Zhu, F. Zhang, T. Xiao, J. Wang, and R. Tai, “Single bounce ellipsoidal glass monocapillary condenser for x-ray nanoimaging,” Opt. Commun. 398, 91–94 (2017). [Crossref] . S. Kwon, J. H. Lim, Y. Namb, and K. S. Chon, “Precise measurement of inner diameter of mono-capillary optic using x-ray imaging technique,” J. X-Ray Sci. Technol. 26, 263–272 (2018). [Crossref] . W. M. Gibson and M. A. Kumakhov, “Applications of x-ray and neutron capillary optics,” Proc. SPIE 1736, 172–189 (1993). [Crossref] . S. Peng, Z. Liu, and T. Sun, “Spatially resolved in situ measurements of the ion distribution near the surface of electrode in a steady-state diffusion in an electrolytic tank with confocal micro x-ray fluorescence,” Anal. Chem. 86, 362–366 (2013). [Crossref] . S. Peng, Z. Liu, and T. Sun, “In-situ and elementally resolved determination of the thickness uniformity of multi-ply films by confocal micro XRF,” Appl. Radiat. Isot. 90, 84–88 (2014). [Crossref] . L. Lühl, I. Mantouvalou, W. Malzer, I. Schaumann, C. Vogt, O. Hahn, and B. Kanngießer, “Reconstruction procedure for 3D micro x-ray absorption fine structure,” Anal. Chem. 84, 1907–1914 (2012). [Crossref] . H. Liu, Z. Liu, T. Sun, S. Peng, Y. Ma, W. Sun, Y. Li, X. Lin, W. Zhao, G. Zhao, P. Luo, Q. Pan, and X. Ding, “Performances for confocal x-ray diffraction technology based on polycapillary slightly focusing x-ray optics,” Nucl. Instrum. Methods Phys. Res. A 723, 1–4 (2013). [Crossref] . T. Sun, S. Peng, Z. Liu, W. Sun, Y. Ma, and X. Ding, “Performance of polycapillary x-ray optics for confocal energy-dispersive small-angle x-ray scattering,” J. Appl. Crystallogr. 46, 1880–1883 (2013). [Crossref] . M. Menzel, A. Schlifke, M. Falk, J. Janek, M. Fröba, U. Elisabeth, and A. Fittschena, “Surface and in-depth characterization of lithium-ion battery cathodes at different cycle states using confocal micro-x-ray fluorescence-x-ray absorption near edge structure analysis,” Spectrochim. Acta B 85, 62–70 (2013). [Crossref] . F. Li, Z. Liu, T. Sun, Y. Ma, and X. Ding, “Confocal three-dimensional micro x-ray scatter imaging for nondestructive detecting foreign bodies with low density and low-Z materials in food products,” Food Control 54, 120–125 (2015). [Crossref] . W. Malzer and B. Kanngießer, “A model for the confocal volume of 3D micro x-ray fluorescence spectrometer,” Spectrochim. Acta B 60, 1334–1341 (2005). [Crossref] . T. Sun and X. Ding, “Measurements of energy dependence of properties of polycapillary x-ray lens by using organic glass as a scatter,” J. Appl. Phys. 97, 124904 (2005). [Crossref] . 2018 (1). S. Kwon, J. H. Lim, Y. Namb, and K. S. Chon, “Precise measurement of inner diameter of mono-capillary optic using x-ray imaging technique,” J. X-Ray Sci. Technol. 26, 263–272 (2018). [Crossref] 2017 (1). B. Jiang, Z. Liu, X. Sun, T. Sun, B. Deng, F. Li, L. Yi, M. Yuan, Y. Zhu, F. Zhang, T. Xiao, J. Wang, and R. Tai, “Single bounce ellipsoidal glass monocapillary condenser for x-ray nanoimaging,” Opt. Commun. 398, 91–94 (2017). [Crossref] 2015 (1). F. Li, Z. Liu, T. Sun, Y. Ma, and X. Ding, “Confocal three-dimensional micro x-ray scatter imaging for nondestructive detecting foreign bodies with low density and low-Z materials in food products,” Food Control 54, 120–125 (2015). [Crossref] 2014 (1). S. Peng, Z. Liu, and T. Sun, “In-situ and elementally resolved determination of the thickness uniformity of multi-ply films by confocal micro XRF,” Appl. Radiat. Isot. 90, 84–88 (2014). [Crossref] 2013 (4). H. Liu, Z. Liu, T. Sun, S. Peng, Y. Ma, W. Sun, Y. Li, X. Lin, W. Zhao, G. Zhao, P. Luo, Q. Pan, and X. Ding, “Performances for confocal x-ray diffraction technology based on polycapillary slightly focusing x-ray optics,” Nucl. Instrum. Methods Phys. Res. A 723, 1–4 (2013). [Crossref] T. Sun, S. Peng, Z. Liu, W. Sun, Y. Ma, and X. Ding, “Performance of polycapillary x-ray optics for confocal energy-dispersive small-angle x-ray scattering,” J. Appl. Crystallogr. 46, 1880–1883 (2013). [Crossref] M. Menzel, A. Schlifke, M. Falk, J. Janek, M. Fröba, U. Elisabeth, and A. Fittschena, “Surface and in-depth characterization of lithium-ion battery cathodes at different cycle states using confocal micro-x-ray fluorescence-x-ray absorption near edge structure analysis,” Spectrochim. Acta B 85, 62–70 (2013). [Crossref] S. Peng, Z. Liu, and T. Sun, “Spatially resolved in situ measurements of the ion distribution near the surface of electrode in a steady-state diffusion in an electrolytic tank with confocal micro x-ray fluorescence,” Anal. Chem. 86, 362–366 (2013). [Crossref] 2012 (1). L. Lühl, I. Mantouvalou, W. Malzer, I. Schaumann, C. Vogt, O. Hahn, and B. Kanngießer, “Reconstruction procedure for 3D micro x-ray absorption fine structure,” Anal. Chem. 84, 1907–1914 (2012). [Crossref] 2008 (1). A. Bjeoumikhov, M. Erko, S. Bjeoumikhova, A. Erko, I. Snigireva, A. Snigirev, T. Wolff, I. Mantouvalou, W. Malzer, and B. Kanngießer, “Capillary focus x-ray lens with parabolic and elliptic profile,” Nucl. Instrum. Methods Phys. Res. A 587, 458–463 (2008). [Crossref] 2007 (1). V. R. Albertini, B. Paci, A. Generosi, S. B. Dabagov, O. Mikhin, and M. A. Kumakhov, “On the use of polycapillary structures to improves laboratory energy-dispersive x-ray diffractometry and reflectometry,” Spectrochim. Acta B 62, 1203–1207 (2007). [Crossref] 2005 (2). W. Malzer and B. Kanngießer, “A model for the confocal volume of 3D micro x-ray fluorescence spectrometer,” Spectrochim. Acta B 60, 1334–1341 (2005). [Crossref] T. Sun and X. Ding, “Measurements of energy dependence of properties of polycapillary x-ray lens by using organic glass as a scatter,” J. Appl. Phys. 97, 124904 (2005). [Crossref] 2004 (1). T. Sun, Z. Liu, and X. Ding, “An energy dispersive micro x-ray diffractometer based on a combined system of polycapillary optics,” Nucl. Instrum. Methods Phys. Res. B 226, 651–658 (2004). [Crossref] 2001 (1). D. H. Bilderback and R. Huang, “X-ray tests of microfocusing mono-capillary optic for protein crystallography,” Nucl. Instrum. Methods Phys. Res. A 467, 970–973 (2001). [Crossref] 1993 (1). W. M. Gibson and M. A. Kumakhov, “Applications of x-ray and neutron capillary optics,” Proc. SPIE 1736, 172–189 (1993). [Crossref] Albertini, V. R.. V. R. Albertini, B. Paci, A. Generosi, S. B. Dabagov, O. Mikhin, and M. A. Kumakhov, “On the use of polycapillary structures to improves laboratory energy-dispersive x-ray diffractometry and reflectometry,” Spectrochim. Acta B 62, 1203–1207 (2007). [Crossref] Bilderback, D. H.. D. H. Bilderback and R. Huang, “X-ray tests of microfocusing mono-capillary optic for protein crystallography,” Nucl. Instrum. Methods Phys. Res. A 467, 970–973 (2001). [Crossref] Bjeoumikhov, A.. A. Bjeoumikhov, M. Erko, S. Bjeoumikhova, A. Erko, I. Snigireva, A. Snigirev, T. Wolff, I. Mantouvalou, W. Malzer, and B. Kanngießer, “Capillary focus x-ray lens with parabolic and elliptic profile,” Nucl. Instrum. Methods Phys. Res. A 587, 458–463 (2008). [Crossref] Bjeoumikhova, S.. A. Bjeoumikhov, M. Erko, S. Bjeoumikhova, A. Erko, I. Snigireva, A. Snigirev, T. Wolff, I. Mantouvalou, W. Malzer, and B. Kanngießer, “Capillary focus x-ray lens with parabolic and elliptic profile,” Nucl. Instrum. Methods Phys. Res. A 587, 458–463 (2008). [Crossref] Chon, K. S.. S. Kwon, J. H. Lim, Y. Namb, and K. S. Chon, “Precise measurement of inner diameter of mono-capillary optic using x-ray imaging technique,” J. X-Ray Sci. Technol. 26, 263–272 (2018). [Crossref] Dabagov, S. B.. V. R. Albertini, B. Paci, A. Generosi, S. B. Dabagov, O. Mikhin, and M. A. Kumakhov, “On the use of polycapillary structures to improves laboratory energy-dispersive x-ray diffractometry and reflectometry,” Spectrochim. Acta B 62, 1203–1207 (2007). [Crossref] Deng, B.. B. Jiang, Z. Liu, X. Sun, T. Sun, B. Deng, F. Li, L. Yi, M. Yuan, Y. Zhu, F. Zhang, T. Xiao, J. Wang, and R. Tai, “Single bounce ellipsoidal glass monocapillary condenser for x-ray nanoimaging,” Opt. Commun. 398, 91–94 (2017). [Crossref] Ding, X.. F. Li, Z. Liu, T. Sun, Y. Ma, and X. Ding, “Confocal three-dimensional micro x-ray scatter imaging for nondestructive detecting foreign bodies with low density and low-Z materials in food products,” Food Control 54, 120–125 (2015). [Crossref] T. Sun, S. Peng, Z. Liu, W. Sun, Y. Ma, and X. Ding, “Performance of polycapillary x-ray optics for confocal energy-dispersive small-angle x-ray scattering,” J. Appl. Crystallogr. 46, 1880–1883 (2013). [Crossref] H. Liu, Z. Liu, T. Sun, S. Peng, Y. Ma, W. Sun, Y. Li, X. Lin, W. Zhao, G. Zhao, P. Luo, Q. Pan, and X. Ding, “Performances for confocal x-ray diffraction technology based on polycapillary slightly focusing x-ray optics,” Nucl. Instrum. Methods Phys. Res. A 723, 1–4 (2013). [Crossref] T. Sun and X. Ding, “Measurements of energy dependence of properties of polycapillary x-ray lens by using organic glass as a scatter,” J. Appl. Phys. 97, 124904 (2005). [Crossref] T. Sun, Z. Liu, and X. Ding, “An energy dispersive micro x-ray diffractometer based on a combined system of polycapillary optics,” Nucl. Instrum. Methods Phys. Res. B 226, 651–658 (2004). [Crossref] Elisabeth, U.. M. Menzel, A. Schlifke, M. Falk, J. Janek, M. Fröba, U. Elisabeth, and A. Fittschena, “Surface and in-depth characterization of lithium-ion battery cathodes at different cycle states using confocal micro-x-ray fluorescence-x-ray absorption near edge structure analysis,” Spectrochim. Acta B 85, 62–70 (2013). [Crossref] Erko, A.. A. Bjeoumikhov, M. Erko, S. Bjeoumikhova, A. Erko, I. Snigireva, A. Snigirev, T. Wolff, I. Mantouvalou, W. Malzer, and B. Kanngießer, “Capillary focus x-ray lens with parabolic and elliptic profile,” Nucl. Instrum. Methods Phys. Res. A 587, 458–463 (2008). [Crossref] Erko, M.. A. Bjeoumikhov, M. Erko, S. Bjeoumikhova, A. Erko, I. Snigireva, A. Snigirev, T. Wolff, I. Mantouvalou, W. Malzer, and B. Kanngießer, “Capillary focus x-ray lens with parabolic and elliptic profile,” Nucl. Instrum. Methods Phys. Res. A 587, 458–463 (2008). [Crossref] Falk, M.. M. Menzel, A. Schlifke, M. Falk, J. Janek, M. Fröba, U. Elisabeth, and A. Fittschena, “Surface and in-depth characterization of lithium-ion battery cathodes at different cycle states using confocal micro-x-ray fluorescence-x-ray absorption near edge structure analysis,” Spectrochim. Acta B 85, 62–70 (2013). [Crossref] Fittschena, A.. M. Menzel, A. Schlifke, M. Falk, J. Janek, M. Fröba, U. Elisabeth, and A. Fittschena, “Surface and in-depth characterization of lithium-ion battery cathodes at different cycle states using confocal micro-x-ray fluorescence-x-ray absorption near edge structure analysis,” Spectrochim. Acta B 85, 62–70 (2013). [Crossref] Fröba, M.. M. Menzel, A. Schlifke, M. Falk, J. Janek, M. Fröba, U. Elisabeth, and A. Fittschena, “Surface and in-depth characterization of lithium-ion battery cathodes at different cycle states using confocal micro-x-ray fluorescence-x-ray absorption near edge structure analysis,” Spectrochim. Acta B 85, 62–70 (2013). [Crossref] Generosi, A.. V. R. Albertini, B. Paci, A. Generosi, S. B. Dabagov, O. Mikhin, and M. A. Kumakhov, “On the use of polycapillary structures to improves laboratory energy-dispersive x-ray diffractometry and reflectometry,” Spectrochim. Acta B 62, 1203–1207 (2007). [Crossref] Gibson, W. M.. W. M. Gibson and M. A. Kumakhov, “Applications of x-ray and neutron capillary optics,” Proc. SPIE 1736, 172–189 (1993). [Crossref] Hahn, O.. L. Lühl, I. Mantouvalou, W. Malzer, I. Schaumann, C. Vogt, O. Hahn, and B. Kanngießer, “Reconstruction procedure for 3D micro x-ray absorption fine structure,” Anal. Chem. 84, 1907–1914 (2012). [Crossref] Huang, R.. D. H. Bilderback and R. Huang, “X-ray tests of microfocusing mono-capillary optic for protein crystallography,” Nucl. Instrum. Methods Phys. Res. A 467, 970–973 (2001). [Crossref] Janek, J.. M. Menzel, A. Schlifke, M. Falk, J. Janek, M. Fröba, U. Elisabeth, and A. Fittschena, “Surface and in-depth characterization of lithium-ion battery cathodes at different cycle states using confocal micro-x-ray fluorescence-x-ray absorption near edge structure analysis,” Spectrochim. Acta B 85, 62–70 (2013). [Crossref] Jiang, B.. B. Jiang, Z. Liu, X. Sun, T. Sun, B. Deng, F. Li, L. Yi, M. Yuan, Y. Zhu, F. Zhang, T. Xiao, J. Wang, and R. Tai, “Single bounce ellipsoidal glass monocapillary condenser for x-ray nanoimaging,” Opt. Commun. 398, 91–94 (2017). [Crossref] Kanngießer, B.. L. Lühl, I. Mantouvalou, W. Malzer, I. Schaumann, C. Vogt, O. Hahn, and B. Kanngießer, “Reconstruction procedure for 3D micro x-ray absorption fine structure,” Anal. Chem. 84, 1907–1914 (2012). [Crossref] A. Bjeoumikhov, M. Erko, S. Bjeoumikhova, A. Erko, I. Snigireva, A. Snigirev, T. Wolff, I. Mantouvalou, W. Malzer, and B. Kanngießer, “Capillary focus x-ray lens with parabolic and elliptic profile,” Nucl. Instrum. Methods Phys. Res. A 587, 458–463 (2008). [Crossref] W. Malzer and B. Kanngießer, “A model for the confocal volume of 3D micro x-ray fluorescence spectrometer,” Spectrochim. Acta B 60, 1334–1341 (2005). [Crossref] Kumakhov, M. A.. V. R. Albertini, B. Paci, A. Generosi, S. B. Dabagov, O. Mikhin, and M. A. Kumakhov, “On the use of polycapillary structures to improves laboratory energy-dispersive x-ray diffractometry and reflectometry,” Spectrochim. Acta B 62, 1203–1207 (2007). [Crossref] W. M. Gibson and M. A. Kumakhov, “Applications of x-ray and neutron capillary optics,” Proc. SPIE 1736, 172–189 (1993). [Crossref] Kwon, S.. S. Kwon, J. H. Lim, Y. Namb, and K. S. Chon, “Precise measurement of inner diameter of mono-capillary optic using x-ray imaging technique,” J. X-Ray Sci. Technol. 26, 263–272 (2018). [Crossref] Li, F.. B. Jiang, Z. Liu, X. Sun, T. Sun, B. Deng, F. Li, L. Yi, M. Yuan, Y. Zhu, F. Zhang, T. Xiao, J. Wang, and R. Tai, “Single bounce ellipsoidal glass monocapillary condenser for x-ray nanoimaging,” Opt. Commun. 398, 91–94 (2017). [Crossref] F. Li, Z. Liu, T. Sun, Y. Ma, and X. Ding, “Confocal three-dimensional micro x-ray scatter imaging for nondestructive detecting foreign bodies with low density and low-Z materials in food products,” Food Control 54, 120–125 (2015). [Crossref] Li, Y.. H. Liu, Z. Liu, T. Sun, S. Peng, Y. Ma, W. Sun, Y. Li, X. Lin, W. Zhao, G. Zhao, P. Luo, Q. Pan, and X. Ding, “Performances for confocal x-ray diffraction technology based on polycapillary slightly focusing x-ray optics,” Nucl. Instrum. Methods Phys. Res. A 723, 1–4 (2013). [Crossref] Lim, J. H.. S. Kwon, J. H. Lim, Y. Namb, and K. S. Chon, “Precise measurement of inner diameter of mono-capillary optic using x-ray imaging technique,” J. X-Ray Sci. Technol. 26, 263–272 (2018). [Crossref] Lin, X.. H. Liu, Z. Liu, T. Sun, S. Peng, Y. Ma, W. Sun, Y. Li, X. Lin, W. Zhao, G. Zhao, P. Luo, Q. Pan, and X. Ding, “Performances for confocal x-ray diffraction technology based on polycapillary slightly focusing x-ray optics,” Nucl. Instrum. Methods Phys. Res. A 723, 1–4 (2013). [Crossref] Liu, H.. H. Liu, Z. Liu, T. Sun, S. Peng, Y. Ma, W. Sun, Y. Li, X. Lin, W. Zhao, G. Zhao, P. Luo, Q. Pan, and X. Ding, “Performances for confocal x-ray diffraction technology based on polycapillary slightly focusing x-ray optics,” Nucl. Instrum. Methods Phys. Res. A 723, 1–4 (2013). [Crossref] Liu, Z.. B. Jiang, Z. Liu, X. Sun, T. Sun, B. Deng, F. Li, L. Yi, M. Yuan, Y. Zhu, F. Zhang, T. Xiao, J. Wang, and R. Tai, “Single bounce ellipsoidal glass monocapillary condenser for x-ray nanoimaging,” Opt. Commun. 398, 91–94 (2017). [Crossref] F. Li, Z. Liu, T. Sun, Y. Ma, and X. Ding, “Confocal three-dimensional micro x-ray scatter imaging for nondestructive detecting foreign bodies with low density and low-Z materials in food products,” Food Control 54, 120–125 (2015). [Crossref] S. Peng, Z. Liu, and T. Sun, “In-situ and elementally resolved determination of the thickness uniformity of multi-ply films by confocal micro XRF,” Appl. Radiat. Isot. 90, 84–88 (2014). [Crossref] H. Liu, Z. Liu, T. Sun, S. Peng, Y. Ma, W. Sun, Y. Li, X. Lin, W. Zhao, G. Zhao, P. Luo, Q. Pan, and X. Ding, “Performances for confocal x-ray diffraction technology based on polycapillary slightly focusing x-ray optics,” Nucl. Instrum. Methods Phys. Res. A 723, 1–4 (2013). [Crossref] S. Peng, Z. Liu, and T. Sun, “Spatially resolved in situ measurements of the ion distribution near the surface of electrode in a steady-state diffusion in an electrolytic tank with confocal micro x-ray fluorescence,” Anal. Chem. 86, 362–366 (2013). [Crossref] T. Sun, S. Peng, Z. Liu, W. Sun, Y. Ma, and X. Ding, “Performance of polycapillary x-ray optics for confocal energy-dispersive small-angle x-ray scattering,” J. Appl. Crystallogr. 46, 1880–1883 (2013). [Crossref] T. Sun, Z. Liu, and X. Ding, “An energy dispersive micro x-ray diffractometer based on a combined system of polycapillary optics,” Nucl. Instrum. Methods Phys. Res. B 226, 651–658 (2004). [Crossref] Lühl, L.. L. Lühl, I. Mantouvalou, W. Malzer, I. Schaumann, C. Vogt, O. Hahn, and B. Kanngießer, “Reconstruction procedure for 3D micro x-ray absorption fine structure,” Anal. Chem. 84, 1907–1914 (2012). [Crossref] Luo, P.. H. Liu, Z. Liu, T. Sun, S. Peng, Y. Ma, W. Sun, Y. Li, X. Lin, W. Zhao, G. Zhao, P. Luo, Q. Pan, and X. Ding, “Performances for confocal x-ray diffraction technology based on polycapillary slightly focusing x-ray optics,” Nucl. Instrum. Methods Phys. Res. A 723, 1–4 (2013). [Crossref] Ma, Y.. F. Li, Z. Liu, T. Sun, Y. Ma, and X. Ding, “Confocal three-dimensional micro x-ray scatter imaging for nondestructive detecting foreign bodies with low density and low-Z materials in food products,” Food Control 54, 120–125 (2015). [Crossref] T. Sun, S. Peng, Z. Liu, W. Sun, Y. Ma, and X. Ding, “Performance of polycapillary x-ray optics for confocal energy-dispersive small-angle x-ray scattering,” J. Appl. Crystallogr. 46, 1880–1883 (2013). [Crossref] H. Liu, Z. Liu, T. Sun, S. Peng, Y. Ma, W. Sun, Y. Li, X. Lin, W. Zhao, G. Zhao, P. Luo, Q. Pan, and X. Ding, “Performances for confocal x-ray diffraction technology based on polycapillary slightly focusing x-ray optics,” Nucl. Instrum. Methods Phys. Res. A 723, 1–4 (2013). [Crossref] Malzer, W.. L. Lühl, I. Mantouvalou, W. Malzer, I. Schaumann, C. Vogt, O. Hahn, and B. Kanngießer, “Reconstruction procedure for 3D micro x-ray absorption fine structure,” Anal. Chem. 84, 1907–1914 (2012). [Crossref] A. Bjeoumikhov, M. Erko, S. Bjeoumikhova, A. Erko, I. Snigireva, A. Snigirev, T. Wolff, I. Mantouvalou, W. Malzer, and B. Kanngießer, “Capillary focus x-ray lens with parabolic and elliptic profile,” Nucl. Instrum. Methods Phys. Res. A 587, 458–463 (2008). [Crossref] W. Malzer and B. Kanngießer, “A model for the confocal volume of 3D micro x-ray fluorescence spectrometer,” Spectrochim. Acta B 60, 1334–1341 (2005). [Crossref] Mantouvalou, I.. L. Lühl, I. Mantouvalou, W. Malzer, I. Schaumann, C. Vogt, O. Hahn, and B. Kanngießer, “Reconstruction procedure for 3D micro x-ray absorption fine structure,” Anal. Chem. 84, 1907–1914 (2012). [Crossref] A. Bjeoumikhov, M. Erko, S. Bjeoumikhova, A. Erko, I. Snigireva, A. Snigirev, T. Wolff, I. Mantouvalou, W. Malzer, and B. Kanngießer, “Capillary focus x-ray lens with parabolic and elliptic profile,” Nucl. Instrum. Methods Phys. Res. A 587, 458–463 (2008). [Crossref] Menzel, M.. M. Menzel, A. Schlifke, M. Falk, J. Janek, M. Fröba, U. Elisabeth, and A. Fittschena, “Surface and in-depth characterization of lithium-ion battery cathodes at different cycle states using confocal micro-x-ray fluorescence-x-ray absorption near edge structure analysis,” Spectrochim. Acta B 85, 62–70 (2013). [Crossref] Mikhin, O.. V. R. Albertini, B. Paci, A. Generosi, S. B. Dabagov, O. Mikhin, and M. A. Kumakhov, “On the use of polycapillary structures to improves laboratory energy-dispersive x-ray diffractometry and reflectometry,” Spectrochim. Acta B 62, 1203–1207 (2007). [Crossref] Namb, Y.. S. Kwon, J. H. Lim, Y. Namb, and K. S. Chon, “Precise measurement of inner diameter of mono-capillary optic using x-ray imaging technique,” J. X-Ray Sci. Technol. 26, 263–272 (2018). [Crossref] Paci, B.. V. R. Albertini, B. Paci, A. Generosi, S. B. Dabagov, O. Mikhin, and M. A. Kumakhov, “On the use of polycapillary structures to improves laboratory energy-dispersive x-ray diffractometry and reflectometry,” Spectrochim. Acta B 62, 1203–1207 (2007). [Crossref] Pan, Q.. H. Liu, Z. Liu, T. Sun, S. Peng, Y. Ma, W. Sun, Y. Li, X. Lin, W. Zhao, G. Zhao, P. Luo, Q. Pan, and X. Ding, “Performances for confocal x-ray diffraction technology based on polycapillary slightly focusing x-ray optics,” Nucl. Instrum. Methods Phys. Res. A 723, 1–4 (2013). [Crossref] Peng, S.. S. Peng, Z. Liu, and T. Sun, “In-situ and elementally resolved determination of the thickness uniformity of multi-ply films by confocal micro XRF,” Appl. Radiat. Isot. 90, 84–88 (2014). [Crossref] S. Peng, Z. Liu, and T. Sun, “Spatially resolved in situ measurements of the ion distribution near the surface of electrode in a steady-state diffusion in an electrolytic tank with confocal micro x-ray fluorescence,” Anal. Chem. 86, 362–366 (2013). [Crossref] T. Sun, S. Peng, Z. Liu, W. Sun, Y. Ma, and X. Ding, “Performance of polycapillary x-ray optics for confocal energy-dispersive small-angle x-ray scattering,” J. Appl. Crystallogr. 46, 1880–1883 (2013). [Crossref] H. Liu, Z. Liu, T. Sun, S. Peng, Y. Ma, W. Sun, Y. Li, X. Lin, W. Zhao, G. Zhao, P. Luo, Q. Pan, and X. Ding, “Performances for confocal x-ray diffraction technology based on polycapillary slightly focusing x-ray optics,” Nucl. Instrum. Methods Phys. Res. A 723, 1–4 (2013). [Crossref] Schaumann, I.. L. Lühl, I. Mantouvalou, W. Malzer, I. Schaumann, C. Vogt, O. Hahn, and B. Kanngießer, “Reconstruction procedure for 3D micro x-ray absorption fine structure,” Anal. Chem. 84, 1907–1914 (2012). [Crossref] Schlifke, A.. M. Menzel, A. Schlifke, M. Falk, J. Janek, M. Fröba, U. Elisabeth, and A. 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