Introduction

1. General mechanisms of bio-superconductivity

2. Hierarchies of preferred p-adic length scales and values of Planck constant

3. Fractal hierarchy of magnetic flux sheets and the hierarchy of genomes

4. Bose-Einstein condensates at magnetic flux quanta in astrophysical length scales

5. The basic mechanism of high T_c superconductivity

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

3. Speculations

Models for ionic superconductivity

1. Model for ionic superconductivity

2. Super conductors of exotic bosonic counterparts of fermionic ions

3. More quantitative picture about Bose-Einstein condensates

About high T_c superconductivity and other exotic conductivities

1. The phase diagram and observation

2. Alternative proposals for the mechanism of superconductivity

3. TGD proposal for the mechanism of high T_c superconductivity

4. New findings about high-temperature super-conductors

Self hierarchy and hierarchy of weakly coupled super conductors

1. Simple model for weakly coupled super conductors

2. Simplest solutions of Sine-Gordon equation

3. Are both time like and space-like soliton sequences possible ground states?

4. Quantum tools for bio-control and -coordination

Model for the hierarchy of Josephson junctions

1. The most recent model for the generation of nerve pulse

2. Quantum model for sensory receptor

3. The role of Josephson currents

4. What is the role of the magnetic body?

5. Dark matter hierarchies of Josephson junctions

6. p-Adic fractal hierarchy of Josephson junctions