Gemstones

Question 1

What is phosphorescent?

Answer 1

if the luminescence continues after the exposure to UV radiation
* due to impurities and defects in the crystal lattice

Question 2

Where are gemstones found in casework?

Answer 2

• counterfeits
• simulants

Question 3

How can gemstones be tested to see if they are real or counterfeit?

Answer 3

• luminescence
• fluorescence
• phosphorescence
• birefringence
• refraction
• dispersion
• pleochroism
• hardness
• specific gravity
• magnetism
• thermal conductivity

Question 4

What is fluorescence?

Answer 4

gemstones are exposed to the short or long wave UV radiation, they emit the visible light

Question 5

What can X-ray diffraction determine?

Answer 5

• lattice parameters - by indexing the position of the peaks
• phase composition of the sample - given by the relative amounts of overlaid diffraction patterns
• crystal structure - by refining the whole defraction pattern
• crystallite size - by looking at peak broadening
• identify impurities and defects in the crystal lattice

Question 6

What does the scherrer equation do?

Answer 6

enables the average size of nanocrystals to be calculated if no microstrain

Question 7

What is XRD used for?

Answer 7

to establish the arrangement of atoms within a crystal structure and how they stack together

Question 8

What is the simplist model to understand what conditions are required for diffraction?

Answer 8

Bragg’s Law

Question 9

What is Bragg’s law?

Answer 9

nλ = 2dsinθ
* n = integer (often 1)
* λ = x-ray wavelength
* d = interplane spacing
* θ = angle between plane and beam

Question 10

When occurs when Bragg’s law is satisfied?

Answer 10

for parallel planes of atoms, with a space (d) between the planes, constructive interference occurs

Question 11

What do we control in Bragg’s law?

Answer 11

x-ray wavelength and angle between plane and beam

Question 12

How is almandine garnet identifiable from x-ray diffraction patterns?

Answer 12

from diffraction peaks, but inclusions not visible (can see them in microscopy)

Question 13

How is quartz identified in x-ray diffraction patterns?

Answer 13

aventurine effect but inclusions not visible

Question 14

How is glass identified from x-ray diffraction patterns?

Answer 14

doesnt have crystalline lattice so will have a broad peak

Question 15

How are isotropic substances analysed with optical analysis?

Answer 15

• looking at the refractive index
• illuminted with a normal incidence to the crystal face, all light will pass through without deviation
• velocity will change but not the direction of light because of Snell’s law

Question 16

What are some examples of isotropic substances?

Answer 16

• diamonds: cubic structure
• opals: amorphous

Question 17

How do we analyse uniaxial substances with optical analysis?

Answer 17

• light incident on the cleavage face of the crystal will break into two separate rays as the light travels through the crystals
• the wave of the two rays vibrate in planes perpendicular to each other and travel through the crystal at different velocities

Question 18

What are examples of uniaxial substances?

Answer 18

tetragonal or hexagonal crystals
* quartz

Question 19

What are the two rays called for a uniaxial substance?

Answer 19

• ordinary ray (O) - slower ray
• extraordinary ray (E) - faster ray
• vibrate in different planes through the material and have different RIs
• E ray emerges ahead and in a different location to the O ray

Question 20

What is birefringence?

Answer 20

the difference between the two refractive indices of the two rays in a uniaxial substance