R.T. Jones, Newport News, Mar 21, 2002 Effects of Crystal Quality on Beam Intensity The graph at right shows how the width of a diamond’s Bragg peak affects.

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Presentation transcript:

R.T. Jones, Newport News, Mar 21, 2002 Effects of Crystal Quality on Beam Intensity The graph at right shows how the width of a diamond’s Bragg peak affects the intensity of the x-ray beam. Each curve represents a crystal with a different Bragg peak width.

R.T. Jones, Newport News, Mar 21, 2002 Stone 1407 slice 1 2mm 4mm x 4mm X-ray beam rocking curve

R.T. Jones, Newport News, Mar 21, 2002 A diamond ingot seed slice 1 slice 2 slice 3 We brought samples from 3 ingots to Daresbury January 2002  Stone 1407  Stone 1485A  Stone 1532

R.T. Jones, Newport News, Mar 21, 2002  Stone 1482A slice 1 2mm 3mm x 5mm X-ray beam rocking curve

A diamond crystal can be divided up into its most basic components, called unit cells. Each unit cell has eight carbon atoms. The atoms of the unit cells together make up many sets of parallel planes, and Bragg scattering can occur on any set of parallel planes. The Bragg angle depends on the spacing between the planes and the wavelength of the incoming light. The set of planes we scattered from is denoted by the vector (0,0,4). For this set of planes, Q Bragg = 34.2 ° Image from Elements of X-Ray Diffraction, B. D. Cullity, Addison-Wesley 1967

Schematic of Bragg Intensity Peak Measurements Incoming x-rays from radiation source Diamond wafer, with lattice spacing d Bragg-scattered x-rays X-ray detector Q Q l Condition for Bragg scattering: l =2dsin Q

Q Q d l l Condition for Bragg scattering: l =2dsin Q Incoming x-ray Diamond atoms