Introduction

Physics as geometry

1. Space-time as 4-surface in H=M⁴× CP₂

2. World of classical worlds (WCW)

3. About Dirac equation in TGD framework

4. Different manners to understand the "complete integrability" of TGD

Physics as number theory

1. p-Adic physics

2. Adelic physics

3. Adelic physics and quantum measurement theory

4. Entanglement paradox and new view about particle identity

M⁸-H duality

1. Associative dynamics in M⁸_c

2. Associativity condition at the level of M⁸

3. Uncertainty Principle and M⁸-H duality

4. The revised view about M⁸-H duality and the "very special moments in the life of self"

5. Space-time surfaces as images of associative surfaces in M⁸

6. Hierarchies of extensions for rationals and for inclusions of hyperfinite factors

7. Galois confinement

8. M⁸-H duality at the level of WCW

9. Some questions and ideas related to M⁸-H duality

Neutrinos and TGD

1. Some background about TGD

2. Problems related to neutrinos

Zero energy ontology (ZEO)

1. The basic view about ZEO and causal diamonds

2. Open questions related to ZEO

3. What happens in quantum measurement?

4. About TGD based description of entanglement

5. Negentropy Maximization Principle

Appendix

1. Comparison of TGD with other theories

2. Brief glossary of the basic concepts of TGD

3. Figures