Difference between revisions of "Ewald sphere"

From GISAXS
Jump to: navigation, search
(Out-of-plane scattering only)
(Conceptual Understanding of Ewald sphere)
Line 118: Line 118:
 
===Conceptual Understanding of Ewald sphere===
 
===Conceptual Understanding of Ewald sphere===
 
* [http://scripts.iucr.org/cgi-bin/paper?S0021889808001064 Simulating X-ray diffraction of textured films] D. W. Breiby, O. Bunk, J. W. Andreasen, H. T. Lemke and M. M. Nielsen ''J. Appl. Cryst.'' 2008, 41, 262-271. [http://dx.doi.org/10.1107/S0021889808001064 doi: 10.1107/S0021889808001064]
 
* [http://scripts.iucr.org/cgi-bin/paper?S0021889808001064 Simulating X-ray diffraction of textured films] D. W. Breiby, O. Bunk, J. W. Andreasen, H. T. Lemke and M. M. Nielsen ''J. Appl. Cryst.'' 2008, 41, 262-271. [http://dx.doi.org/10.1107/S0021889808001064 doi: 10.1107/S0021889808001064]
* '''[http://pubs.acs.org/doi/abs/10.1021/la904840q Quantification of Thin Film Crystallographic Orientation Using X-ray Diffraction with an Area Detector]''' Jessy L. Baker, Leslie H. Jimison, Stefan Mannsfeld, Steven Volkman, Shong Yin, Vivek Subramanian, Alberto Salleo, A. Paul Alivisatos and Michael F. Toney ''Langmuir'' 2010, 26 (11), 9146-9151. [http://dx.doi.org/10.1021/la904840q doi: 10.1021/la904840q]
+
* [http://pubs.acs.org/doi/abs/10.1021/la904840q Quantification of Thin Film Crystallographic Orientation Using X-ray Diffraction with an Area Detector] Jessy L. Baker, Leslie H. Jimison, Stefan Mannsfeld, Steven Volkman, Shong Yin, Vivek Subramanian, Alberto Salleo, A. Paul Alivisatos and Michael F. Toney ''Langmuir'' 2010, 26 (11), 9146-9151. [http://dx.doi.org/10.1021/la904840q doi: 10.1021/la904840q]
  
 
===Equations of GISAXS Geometry===
 
===Equations of GISAXS Geometry===

Revision as of 09:32, 24 June 2014

The Ewald sphere is the surface, in reciprocal-space, that all experimentally-observed scattering arises from. (Strictly, only the elastic scattering comes from the Ewald sphere; inelastic scattering is so-called 'off-shell'.) A peak observed on the detector indicates that a reciprocal-space peak is intersecting with the Ewald sphere.

Mathematics

In TSAXS of an isotropic sample, we only probe the magnitude (not direction) of the momentum transfer:

Where is the full scattering angle. In GISAXS, we must take into account the vector components:

Derivation

Definitions

Consider reciprocal-space in the incident beam coordinate system: . The incident beam is the vector , where:

where is, of course, the wavelength of the incident beam. An elastic scattering event has an outgoing momentum () of the same magnitude as the incident radiation (i.e. ). Consider a momentum vector, and resultant momentum transfer, , of:

The magnitude of the momentum transfer is thus:

where is the full scattering angle. The Ewald sphere is centered about the point and thus has the equation:

TSAXS

In conventional SAXS, the signal of interest is isotropic: i.e. we only care about , and not the individual (directional) components . In such a case we use the form of q derived above:

In the more general case of probing an anisotropic material (e.g. CD-SAXS), one must take into account the full q-vector, and in particular the relative orientation of the incident beam and the sample: i.e. the relative orientation of the Ewald sphere and the reciprocal-space.

GISAXS

Now let us assume that the incident beam strikes a thin film mounted to a substrate. The incident beam is in the grazing-incidence geometry (e.g. GISAXS, and we denote the angle between the incident beam and the film surface as . The reciprocal-space of the sample is thus rotated by with respect to the beam reciprocal-space coordinates. We convert to the sample's reciprocal coordinate space; still denoted by . The equation of the Ewald sphere becomes (the center of the sphere is at ):

Reflectivity

Consider for a moment that the q-vector is confined to the plane:

Obviously the specular condition is when , in which case one obtains:

That is, reflectivity is inherently only probing the out-of-plane () component:

Out-of-plane scattering only

TBD

General form

TBD

Literature

Conceptual Understanding of Ewald sphere

Equations of GISAXS Geometry