Presentation is loading. Please wait.

Presentation is loading. Please wait.

Artifacts in the characterization of skin layers and ultrathin films by X-ray diffraction X. Marti, V. Holy Charles University, Prague P. Ferrer, T. Schulli.

Published byEric Daniel Modified over 9 years ago

Similar presentations

Presentation on theme: "Artifacts in the characterization of skin layers and ultrathin films by X-ray diffraction X. Marti, V. Holy Charles University, Prague P. Ferrer, T. Schulli."— Presentation transcript:

1 Artifacts in the characterization of skin layers and ultrathin films by X-ray diffraction X. Marti, V. Holy Charles University, Prague P. Ferrer, T. Schulli ESRF, Grenoble J. Herrero-Albillos BESSY, Berlin J. Narvaez, G. Catalan CIN2, Barcelona N. Barrett, CEA, Gif-sur-Yvette M. Alexe MPI, Halle EMRS, Warsaw, SEPT 2011xavi.mr@gmail.com D. Pesquera, F. Sanchez, G. Herranz, J. Fontcuberta ICMAB, Barcelona Substrate Thin film, t < 10 nm Out-of-plane parameter? 12 Conventional XRD Grazing incidence diffraction

2 EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com Substrate Thin film, t < 10 nm Incoming X-rays

3 EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com Substrate Thin film, t < 10 nm Incoming X-rays

4 EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com Substrate Thin film, t < 10 nm Incoming X-rays

5 EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com Substrate Thin film, t < 10 nm Incoming X-rays

6 EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com Substrate Thin film, t < 10 nm Incoming X-rays

7 EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com Substrate Thin film, t < 10 nm Incoming X-rays

8 EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com |E SL (w)| 2 = |E S (w) + E L (w)| 2 |E 0 SL (w)| 2 = |E S (w)| 2 + |E L (w)| 2

9 EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com |E SL (w)| 2 = |E S (w) + E L (w)| 2 |E 0 SL (w)| 2 = |E S (w)| 2 + |E L (w)| 2

10 EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com How relevant this issue could be (1/2): Samples grown at ICMAB

11 EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com Samples grown at ICMAB |E SL (w)| 2 = |E S (w) + E L (w)| 2 |E 0 SL (w)| 2 = |E S (w)| 2 + |E L (w)| 2

12 EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com How relevant this issue could be (1/2): Samples grown at ICMAB

13 EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com How relevant this issue could be (2/2): Samples courtesy of A. Gruverman I0I0 Measured peak is at … …w = 22.24 deg The corresponding “c” is at … 21.84 deg !!!

14 EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com How relevant this issue could be (2/2): Samples courtesy of A. Gruverman True lattice parameter Apparent lattice parameter I0I0 Measured peak is at … …w = 22.24 deg The corresponding “c” is at … 21.84 deg !!!

15 EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com How relevant this issue could be (2/2): Sample courtesy of A. Gruverman I0I0 21.84 deg  4.14 Angstrom (fit) 22.24 deg  4.07 Angstrom (peak-pick) Measured peak is at … …w = 22.24 deg The corresponding “c” is at … 21.84 deg !!! FE Measurement courtesy of P. Zubko

16 1.Small changes of the out-of-plane parameter 2.…and confined in a few (?) nm thick topmost surface http://henke.lbl.gov/optical_constants/ Single crystal αiαi EiEi EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com Scenario # 2: a thin skin layer of a substrate

17 EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com Correction for refraction

18 To circumvent refraction we scanned both energy and incidence angle EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com Color scale indicates the information depth For the particular case of BiFeO 3, for instance:

19 Measured Corrected BULKSKIN Q Q Changing the energy (no refraction correction required) EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com

20 Measured Corrected Changing the angles BULKSKIN Changing the energy (no refraction correction required) EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com

21 Concluding remarks 1)For the extraction of lattice parameters it is highly recommended to fit simultaneously both the substrate and the thin film using a dynamical or semi-kinematical model. 2)For the determination small changes of lattice parameters, in grazing incidence geometry, changing the energy may be more useful than changing the angles Thank you very much for your attention! xavi.mr@gmail.com EMRS, Warsaw, SEPT 2011 xavi.mr@gmail.com

Download ppt "Artifacts in the characterization of skin layers and ultrathin films by X-ray diffraction X. Marti, V. Holy Charles University, Prague P. Ferrer, T. Schulli."

Similar presentations

(see Bowen & Tanner, High

(see Bowen & Tanner, High
Another example of interference that is often observed is interference from a thin film. Light incident on the surface of a thin film is reflected from.

Another example of interference that is often observed is interference from a thin film. Light incident on the surface of a thin film is reflected from.
Surface diffraction on magnetic nanostructures in thin films using grazing incidence SANS. M. Pannetier (a), F. Ott (b), C. Fermon (b), Y. Samson (c) (a)

Surface diffraction on magnetic nanostructures in thin films using grazing incidence SANS. M. Pannetier (a), F. Ott (b), C. Fermon (b), Y. Samson (c) (a)
Optical Modeling of a-Si:H Thin Film Solar Cells with Rough Interfaces Speaker : Hsiao-Wei Liu 08/18/2010 Wed.

Optical Modeling of a-Si:H Thin Film Solar Cells with Rough Interfaces Speaker : Hsiao-Wei Liu 08/18/2010 Wed.
Residual Stress Characterization In Zirconium Oxides Using Synchrotron XRD Manchester Materials Science Centre, The University of Manchester, Grosvenor.

Residual Stress Characterization In Zirconium Oxides Using Synchrotron XRD Manchester Materials Science Centre, The University of Manchester, Grosvenor.
Plan : lattices Characterization of thin films and bulk materials using x-ray and electron scattering V. Pierron-Bohnes IPCMS-GEMME, BP 43, 23 rue du Loess,

Plan : lattices Characterization of thin films and bulk materials using x-ray and electron scattering V. Pierron-Bohnes IPCMS-GEMME, BP 43, 23 rue du Loess,
Reflection High Energy Electron Diffraction Wei-Li Chen 11/15/2007.

Reflection High Energy Electron Diffraction Wei-Li Chen 11/15/2007.
Influence of Substrate Surface Orientation on the Structure of Ti Thin Films Grown on Al Single- Crystal Surfaces at Room Temperature Richard J. Smith.

Influence of Substrate Surface Orientation on the Structure of Ti Thin Films Grown on Al Single- Crystal Surfaces at Room Temperature Richard J. Smith.
Announcements 1)Revised Lab timings: 1-3 PM (all groups) 2) Quiz 1, 28 th Jan 2014, Tuesday 7:30 PM, WS 209, WS 213.

Announcements 1)Revised Lab timings: 1-3 PM (all groups) 2) Quiz 1, 28 th Jan 2014, Tuesday 7:30 PM, WS 209, WS 213.
Characterizing the Nanoscale Layers of Tomorrow’s Electronics : An Application of Fourier Analysis Chris Payne In Collaboration With: Apurva Mehta & Matt.

Characterizing the Nanoscale Layers of Tomorrow’s Electronics : An Application of Fourier Analysis Chris Payne In Collaboration With: Apurva Mehta & Matt.
Grazing incident X-ray Diffraction (XRD) X-rays are electromagnetic radiation with very short wavelength (  10 -8 - 10 -12 m), very suitable to do diffraction.

Grazing incident X-ray Diffraction (XRD) X-rays are electromagnetic radiation with very short wavelength (  m), very suitable to do diffraction.
Silicon Wafer Cleaning for EUV Reflectance Measurements by Cold, High-Pressure CO 2 Jet William Evans Brigham Young University.

Silicon Wafer Cleaning for EUV Reflectance Measurements by Cold, High-Pressure CO 2 Jet William Evans Brigham Young University.
IPCMS-GEMME, BP 43, 23 rue du Loess, Strasbourg Cedex 2

IPCMS-GEMME, BP 43, 23 rue du Loess, Strasbourg Cedex 2
Tuesday, May 15 - Thursday, May 17, 2007

Tuesday, May 15 - Thursday, May 17, 2007
X-ray Diffraction (XRD) and Forensic Geology X-ray diffraction pattern for goethite X-ray diffractometer (XRD) laboratory.

X-ray Diffraction (XRD) and Forensic Geology X-ray diffraction pattern for goethite X-ray diffractometer (XRD) laboratory.
Synthesis and characterisation of thin film MAX phase alloys Mathew Guenette, Mark Tucker, Yongbai Yin, Marcela Bilek, David McKenzie Applied and Plasma.

Synthesis and characterisation of thin film MAX phase alloys Mathew Guenette, Mark Tucker, Yongbai Yin, Marcela Bilek, David McKenzie Applied and Plasma.
1 Oxidation Effects on the Optical Constants of Heavy Metals in the Extreme Ultraviolet Amy Grigg R. Steven Turley Brigham Young University.

1 Oxidation Effects on the Optical Constants of Heavy Metals in the Extreme Ultraviolet Amy Grigg R. Steven Turley Brigham Young University.
1 X-Ray Photoelectron Molecular By Amy Baker R. Steven Turley, David Allred, Matt Linford, Yi Lang, BYU Thin Special Thanks to R. Steven Turley, David.

1 X-Ray Photoelectron Molecular By Amy Baker R. Steven Turley, David Allred, Matt Linford, Yi Lang, BYU Thin Special Thanks to R. Steven Turley, David.
NIH 3T3 fibroblasts stained for Filamentous-actin Phalloidin Alexa Fluor 488 nm A. G. Sostarecz, P.A. Janmey, data not published.

NIH 3T3 fibroblasts stained for Filamentous-actin Phalloidin Alexa Fluor 488 nm A. G. Sostarecz, P.A. Janmey, data not published.
Determining Optical Properties of Uranium Oxide Richard Sandberg Brigham Young University Special Thanks to Kristi Adamson, Shannon Lunt, Elke Jackson,

Determining Optical Properties of Uranium Oxide Richard Sandberg Brigham Young University Special Thanks to Kristi Adamson, Shannon Lunt, Elke Jackson,

Similar presentations

Ads by Google