Introduction

1. General ideas about super-conductivity in many-sheeted space-time

2. TGD inspired model for high T_c superconductivity

3. Empirical evidence for high T_c superconductivity in bio-systems}

General TGD based view about super-conductivity

1. Basic phenomenology of super-conductivity

2. Universality of the parameters in TGD framework

3. Quantum criticality and super-conductivity

4. Space-time description of the mechanisms of super-conductivity

5. Super-conductivity at magnetic flux tubes

TGD based model for high T_c super conductors

1. Some properties of high T_c super conductors

2. TGD inspired vision about high T_c superconductivity

Quantitative model of high T_c super-conductivity and bio-super-conductivity

1. A more detailed flux tube model for super-conductivity

2. Simple quantitative model

3. Fermionic statistics and bosons

4. Interpretation in the case of high T_c super-conductivity

5. Quantitative estimates in the case of TGD inspired quantum biology

Evidence for electronic superconductivity in bio-systems

1. DNA as a conductor?

2. DNA as a super-conductor?

3. Conducting DNA and metabolism

4. Some empirical evidence for super conductivity in bio-systems

5. Microtubular space-time sheets as super conductors?

6. Are living systems high T_c superconductors?

Exotic atoms, wormhole super conductivity and wormhole magnetic fields

1. Exotic atoms

2. Mono-atomic elements as dark matter and high T_c super-conductors?

3. Wormholes and super-conductors