X-Ray Diffraction and X-Ray Crystallography

Slides:

Advertisements

Similar presentations

Lecture 20 X-Ray Diffraction (XRD)

Advertisements

1308 E&M Diffraction – light as a wave Examples of wave diffraction: Water waves diffract through a small opening in the dam. Sound waves diffract through.

The waves spread out from the opening!

4. Investigations into the electrical properties of particular metals at different temperatures led to the identification of superconductivity and the.

Topic 13: Quantum and Nuclear physics “The wave nature of matter” Matter behaving as a wave? Ridiculous!

X-Ray Crystallography The most important technique for mineralogy The most important technique for mineralogy Direct measurement of atomic arrangement.

X-Ray Diffraction. The XRD Technique Takes a sample of the material and places a powdered sample which is then illuminated with x-rays of a fixed wave-length.

X-ray Diffraction (XRD) and Forensic Geology X-ray diffraction pattern for goethite X-ray diffractometer (XRD) laboratory.

X-Ray Diffraction ME 215 Exp#1. X-Ray Diffraction X-rays is a form of electromagnetic radiation having a range of wavelength from nm (0.01x10 -9.

X-Ray Diffraction and X-Ray Crystallography. Diffraction Diffraction: the various phenomena that are associated with wave propagation (e.g., bending and.

Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Chapter 25: Interference and Diffraction.

Gratings. Double Slit Resolution  The bright bands from a double slit are wide. Exact maximum difficult to determine  There is a broad area with some.

Rocks Minerals and Crystals By Guest Scientist Dr. David Walker LDEO-Columbia University.

Crystalline Solids CaF2 Unit Cell

X-ray Diffraction What are X-rays?  E-M waves : Characterized by high frequency, high energy  Wavelength: 0.01 – 10 nm  Invisible to Human Eye (Visible.

Powder X-ray Crystallography

X-Ray Diffraction Dr. T. Ramlochan March 2010.

NEM Lab. NEM Lab. Nano-electronic materials Lab. Southern Taiwan University of Science and Technology Adviser ： Adviser ： Kuen-Hsien Wu Reporter: Jai-Ming.

The waves spread out from the opening!

Physics 203/204 6: Diffraction and Polarization Single Slit Diffraction Diffraction Grating Diffraction by Crystals Polarization of Light Waves.

Wave nature of light Light is an electromagnetic wave. EM waves are those waves in which there are sinusoidal variation of electric and magnetic fields.

4.3.5 – – A.S. Due Monday, May 18.

Crystal Structures & X-ray Diffraction Chemistry 123 Spring 2008 Dr. Woodward.

Topics Young’s double slit experiment with laser light: Determine the wavelength of the laser light. The double slit experiment with white light: Determine.

The Braggs and X ray Crystallography By sending radiation through crystal structures you should be able to produce diffraction around the atoms.

X-Ray Diffraction Spring 2011.

Diffraction AP Physics B. Superposition..AKA….Interference One of the characteristics of a WAVE is the ability to undergo INTERFERENCE. There are TWO.

Double the slit width a and double the wavelength

WAVES Essential Questions:

X-ray Crystallography - The Beginning

I. Waves and Particles De Broglie’s Hypothesis

Q1.1 Find the wavelength of light used in this 2- slits interference.

If a single slit diffracts, what about a double slit?

Diffraction in TEM Janez Košir

Wave Particle Duality.

Interference of Light Waves

Diffraction Gratings.

Light waves White light is a mixture of different colors.

X – Ray Diffraction (XRD)

de Broglie Waves de Broglie argued

Light Waves in 2D SPH4U.

Q36.4 Coherent light passing through six (6) slits separated by a distance d produces a pattern of dark and bright areas on a distant screen. There will.

Diffraction Interference of waves creates a diffraction pattern.

Chem5410 Q1 2/20 & 2/27/’06 1. What is so-called a single-crystal?

X Ray Diffraction © D Hoult 2009.

A. Double the slit width a and double the wavelength l.

Lecture 33 Longitudinal and transverse wave, diffraction

X-Ray Diffraction and Reciprocal Lattice

Behavior of Light.

15 – 2: Diffraction Another property that light exhibits is diffraction. Diffraction: the bending of a wave around an obstacle. Diffraction occurs when.

Nature of Light for all light sources (natural and artificial) atoms in the materials must absorb some form of energy causing electrons to become “energized”

Interference of Light Waves

If a single slit diffracts, what about a double slit?

The Geometry of Interference and Diffraction

Interference and Spectra

Diffraction Diffraction is the spreading out of a wave as it goes passed an obstacle or through an aperture When the wavelength is small compared to the.

Chap 8 Analytical Instruments

4th Quarter Week 6 Vocabulary.

Max. max Figure 37.4 (a) Constructive interference occurs at point P when the waves combine. (b) Constructive interference also occurs at point Q.

Bragg Diffraction 2dsinq = nl Bragg Equation

WAVES Essential Questions:

Properties of Waves Diffraction.

Wave Nature of Matter Just as light sometimes behaves as a particle, matter sometimes behaves like a wave. The wavelength of a particle of matter is: This.

Presentation transcript:

X-Ray Diffraction and X-Ray Crystallography

Diffraction Diffraction: the various phenomena that are associated with wave propagation (e.g., bending and interference of waves) when the wave passes by an object that disrupts the wave.

Diffraction The complex patterns of a diffracted wave result from interference between different rays that traveled to the observer along different paths.

Diffraction Diffraction effects are most noticeable when the wavelength of waves is similar to the size of the diffracting objects or apertures. http://www.ngsir.netfirms.com/applets/diffraction/2X/Diffraction.htm

Diffraction of Visible Light Visible light is diffracted by slits/objects that are spaced at ~ 500 nm (0.5μm)

X-Rays and Crystals Wavelengths of x-rays are around 10 to 0.01 nanometers, approximately one thousand times shorter than the wavelength of visible light. X-rays should be diffracted by slits/objects ~ 0.1 nm (1 Angstrom)

X-Rays and Crystals Spacing of atoms in a crystal lattice are in the order of 0.1 nm X-rays have wavelengths in the order of 0.1 nm X-rays are diffracted by crystals

X-Rays and Crystals

X-Rays and Crystals In 1919 A.W. Hull noted the following: Every crystalline substance can produce an x-ray diffraction pattern; The same substance always gives the same pattern; A mixture of substances each produces its pattern independently of the others. The diffraction pattern of a pure substance is like a fingerprint of the substance Minerals can be identified by their diffraction pattern

X-Ray Diffraction

Bragg’s Law http://www-outreach.phy.cam.ac.uk/camphy/xraydiffraction/xraydiffraction_exp.htm

Multiple d-Spacings

X-Ray Diffractometer

X-Ray Diffractometer

XRD Patterns Quartz Calcite

XRD Patterns Quartz Calcite

XRD and Clays Serpentine, var. Antigorite Serpentine, var. Lizardite