1. Introduction

    1. p-Adic length scale hierarchy

    2. TGD based view about dark matter

    3. The identification of long range classical weak gauge fields as correlates for dark massless weak bosons

    4. Dark color force as a space-time correlate for the strong nuclear force?

    5. Tritium beta decay anomaly

    6. Cold fusion and Trojan horse mechanism

  2. Model for the nucleus based on exotic quarks

    1. The notion of color bond

    2. Are the quarks associated with color bonds dark or p-adically scaled down quarks?

    3. Electro-weak properties of exotic and dark quarks

    4. About the energetics of color bonds

    5. How strong isospin emerges?

    6. How to understand the emergence of harmonic oscillator potential and spin-orbit interaction?

    7. Binding energies and stability of light nuclei

    8. Strong correlation between proton and neutron numbers and magic numbers

    9. A remark about stringy description of strong reactions

  3. Neutron halos, tetra-neutron, and "sticky toffee" model of nucleus

    1. Tetraneutron

    2. The formation of neutron halo and TGD

    3. The "sticky toffee" model of Chris Illert for alpha decays

  4. Tritium beta decay anomaly

    1. Could TGD based exotic nuclear physics explain tritium beta decay anomaly?

    2. The model based on dark neutrinos

    3. Some other apparent anomalies made possible by dark neutrinos

  5. Cold fusion and Trojan horse mechanism

    1. Exotic quarks and charged color bonds as common denominator of anomalous phenomena

    2. The experiments of Ditmire et al

    3. Brief summary of cold fusion

    4. TGD inspired model of cold fusion

    5. Do nuclear reaction rates depend on environment?