PHY 752 Solid State Physics

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Presentation transcript:

PHY 752 Solid State Physics 11-11:50 AM MWF Olin 103 Plan for Lecture 21: X-ray and neutron diffraction in solids (Chap. 10 in GGGPP) Bragg law Intensity relationships Sensitivity to atomic parameters 10/19/2015 PHY 752 Fall 2015 -- Lecture 21

10/19/2015 PHY 752 Fall 2015 -- Lecture 21

In terms of wave vectors kinc Dk 2q Bragg diffraction incident beam defracted beam kscat In terms of wave vectors kinc Dk 2q 10/19/2015 PHY 752 Fall 2015 -- Lecture 21

Relationship of normal distance between diffracting planes to Bravais lattice 10/19/2015 PHY 752 Fall 2015 -- Lecture 21

Comes from Born approximation describing the interaction between scattering particle and material. Intensity profile 10/19/2015 PHY 752 Fall 2015 -- Lecture 21

Atomic structure factors For X-ray scattering; Fourier transform of electronic density (these are from crystaldiffract) 10/19/2015 PHY 752 Fall 2015 -- Lecture 21

Atomic structure factors http://www.ncnr.nist.gov/resources/n-lengths/ 10/19/2015 PHY 752 Fall 2015 -- Lecture 21

scattering length in 10-15 m 10/19/2015 PHY 752 Fall 2015 -- Lecture 21

Cu (fcc) 10/19/2015 PHY 752 Fall 2015 -- Lecture 21

X-ray powder diffraction pattern for Cu (fcc) what is lattice constant a? 3.615 Angstroms 10/19/2015 PHY 752 Fall 2015 -- Lecture 21

Fe (bcc) 10/19/2015 PHY 752 Fall 2015 -- Lecture 21

Fe (bcc) What is a ? 2.8665 Angstroms 10/19/2015 PHY 752 Fall 2015 -- Lecture 21

NaCl 10/19/2015 PHY 752 Fall 2015 -- Lecture 21

NaCl a=5.6573 Angstroms 10/19/2015 PHY 752 Fall 2015 -- Lecture 21

Comparison of X-ray and Neutron diffraction time of flight path length 10/19/2015 PHY 752 Fall 2015 -- Lecture 21

X-ray Neutron 10/19/2015 PHY 752 Fall 2015 -- Lecture 21

10/19/2015 PHY 752 Fall 2015 -- Lecture 21

X-ray 10/19/2015 PHY 752 Fall 2015 -- Lecture 21

Properties of scattering particles from pg. 61 of Marder’s text 10/19/2015 PHY 752 Fall 2015 -- Lecture 21

10/19/2015 PHY 752 Fall 2015 -- Lecture 21