8.8

Question 1

Thermal History of the Universe

Answer 1

• Started very hot and dense
• Expanding ever since -> steady decrease of temperature (T) and density (ρ)

Question 2

Reactions in Thermodynamic Equilibrium

Answer 2

• Rates for forward and backward reactions are equal
• Reaction rate (Γ) faster than expansion rate (H)

Question 3

Equilibrium Condition

Answer 3

Γ ≫ H - Reaction rate is much faster than the expansion rate.

Question 4

Non-Equilibrium Condition

Answer 4

Γ ≪ H - Reaction rate is much slower than the expansion rate.

Question 5

Pair Production and Annihilation (Photons)

Answer 5

• Photon pairs can create matter and anti-matter particle pairs
• Photon energy must exceed the rest mass energy of the particle

Question 6

Early Universe Epochs (in order)

Answer 6

1. Quark
2. Hadron
3. Lepton
4. Big Bang Nucleosynthesis
5. Photon
6. Dark Ages

Quickly, Harry’s Little Beagle Photographed Distant Asteroids

Question 7

Quark Epoch

Answer 7

• Time: < 10^-6 seconds
• Quark-gluon plasma existed
• Energies too high for hadron fromation

Question 8

Hadron Epoch

Answer 8

• Time: 10^-6-1 seconds
• Quarks are bound into hadrons
• Only stable hadrons like protons and neutrons survive

Question 9

Lepton Epoch

Answer 9

• Time: 1-10 seconds
• Composition: interacting matter mostly Leptons
• Most leptons eventually annihilate

Question 10

Big Bang Nucleosynthesis

Answer 10

• Time: 10 - 1’000 seconds
• Composition: Proton-neutron equilibrium
• Helium synthesis takes place: observed H/He ratio of approximately 10

Question 11

Photon Epoch

Answer 11

• Time: 1’000 seconds - 380,000 years
• Composition: plasma in thermodynamic equilibrium
• Epoch ended with
  – Formation of atoms
  – Universe becoming transparent
  – Release of the CMB

Question 12

Dark Ages

Answer 12

• Time: 380,000 - 10⁸ years
• Composition cold, neutral H and He gas
• End of era marked by formation of the first stars