13. Effect of Radiation of Matter

Question 1

What force will charged particles passing through a material predominantly interact with?

Answer 1

Interact with the nuclei and electrons via the EM force

Question 2

Which particles will get transferred the most momentum in an interaction in a nucleus, and why?

Answer 2

Momentum will be transferred to the electrons from the atoms as they are the lightest particles

Question 3

What are ionization energy losses?

Answer 3

Energy transferred in a collision which liberate electrons from atoms
- Need a lot of collisions for an ion to lose all its energy

Question 4

What are ionisation energy losses proportional to when not considering very low or very high energies?

Answer 4

1/v^2

Question 5

How is the large ion motion affected when considering ionization collisions?

Answer 5

Direction is mostly unaffected due to the large mass

- Range depends on the charge of the ion due to its larger density and energy losses

Question 6

Describe the graph for the energy loss and the range of a radiation particle

Answer 6

Constant gradient, then big slope to the (Bragg) peak then a very sharp drop off as it comes to rest
- Heavier ions have a narrower peak

Question 7

How is the trajectory different for electron-electron collisions

Answer 7

Radiation can scatter easier by large anges

- Trajectory doesn’t follow a straight path

Question 8

How is the penetration different for an electron as opposed to an alpha particle

Answer 8

Has much lower energy losses

- Range will be much higher e.g 1800 micrometres in aluminium and an alpha particle is 3

Question 9

Why can electrons cause Bremmstrahlung radiation?

Answer 9

As they are charged and light, and significant changes in energy or large energy collisions can cause a large acceleration
- Causes emission of radiation

Question 10

Describe the relationship between ionization energy losses, energy and Bremmstrahlung energy losses

Answer 10

Ionization losses go down as energy goes up

Bremmstrahlung energy losses go up as energy goes up

Question 11

Why is the electron range not as well defined as for ions

Answer 11

It is lighter and can undergo large scattering due to its low mass, so the trajectory is not linear

Question 12

What are the three processes in which gamma rays interact with matter?

Answer 12

1. Photoelectric effect
2. Compton scattering
3. Pair production

Question 13

Describe the photoelectric effect

Answer 13

Photon energy is fully aborbed by an atomic electron which is liberated with KE = Photon E - BE

Question 14

What is X-ray fluoresence?

Answer 14

If the photoelectron is emitted from an inner shell, the atom will deexcite, replacing the inner shell electron with one from the outer shell

Question 15

Describe the absorption coefficient graph against gamma ray energy for the photoelectric effect

Answer 15

Starts high with some sharp edges, then exp. decay

- Sharp edges due to shell model

Question 16

What type of electrons does the photoelectric effect interact with and why?

Answer 16

Only bound electrons

• Cannot conserve energy and momentum with free electrons
• As photon energy goes up, absorption prob. decreases as it sees the electron more like a free one

Question 17

Define Compton scattering

Answer 17

When a photon scatters from a free electron

- The result is a photon with lower energy E’_photon and the electron gains KE = E_photon - E’_photon

Question 18

Define pair production

Answer 18

One photon creates an electron positron pair

E_photon = KE_e + KE_e+ + 2mc^2

Question 19

Where must pair production occur in order to conserve energy and momentum?

Answer 19

Near the atomic nucleus

Question 20

Describe the absorption coefficient graph against gamma ray energy for the compton scattering and pair production

Answer 20

Compton: broad negative parabola
Pair: Starts at a significant x axis intercept, then starts a steep parabola `

Question 21

Describe the dominant effect for the absorption coefficient at low, medium and high gamma ray energies

Answer 21

Low energy: photoelectric
Medium energy: Compton
High: Pair production

Question 22

What are the two processes for neutron interactions

Answer 22

Moderation and neutron capture

Question 23

What is moderation?

Answer 23

Elastic scattering in which the neutron loses energy

- Dominant for most materials

Question 24

What is neutron capture?

Answer 24

Absorption of a neutron creating a compound nucleus
- Energy released in form of gamma rays, or charged particles which are used in detection due to their large cross section at low neutron energies

Question 25

How is neutron capure used in detection?

Answer 25

Thermalise neutrons, and then convert them to charged particles via neutron capture
- Detected