1. Introduction

    1. A>4 nuclei as nuclear strings consisting of A≤ 4 nuclei

    2. Bose-Einstein condensation of color bonds as a mechanism of nuclear binding

    3. Giant dipole resonance as de-coherence of Bose-Einstein condensate of color bonds

  2. Some variants of the nuclear string hypothesis

    1. Could linking of nuclear strings give rise to heavier stable nuclei?

    2. Nuclear strings as connected sums of shorter nuclear strings?

    3. Is knotting of nuclear strings possible?

  3. Could nuclear strings be connected sums of alpha strings and lighter nuclear strings?

    1. Does the notion of elementary nucleus make sense?

    2. Stable nuclei need not fuse to form stable nuclei

    3. Formula for binding energy per nucleon as a test for the model

    4. Decay characteristics and binding energies as signatures of the decomposition of nuclear string

    5. Are magic numbers additive?

    6. Stable nuclei as composites of lighter nuclei and necessity of tetraneutron?

    7. What are the building blocks of nuclear strings?

  4. Light nuclei as color bound Bose-Einstein condensates of 4He nuclei

    1. How to explain the maximum of EB for iron?

    2. Scaled up QCD with Bose-Einstein condensate of 4He nuclei explains the growth of EB

    3. Why EB decreases for heavier nuclei?

  5. What QCD binds nucleons to A≤ 4 nuclei?

    1. The QCD associated with nuclei lighter than 4He

    2. The QCD associated with 4He

    3. What could be the general mass formula?

    4. Nuclear strings and cold fusion

    5. Strong force as a scaled and dark electro-weak force?

  6. Giant dipole resonance as a dynamical signature for the existence of Bose-Einstein condensates?

    1. De-coherence at the level of 4He nuclear string

    2. De-coherence inside 4He nuclei

    3. De-coherence inside A=3 nuclei and pygmy resonances

    4. De-coherence and the differential topology of nuclear reactions

  7. Nuclear anomalies

    1. Individual Nucleons Inside Nuclei Do Not Behave According To Predictions

    2. GSI Anomaly

    3. New Evidence For Anomalies Of Radio-Active Decay Rates

    4. Reactor antineutrino anomaly as indication for new nuclear physics predicted by TGD

    5. Pear-shaped Barium nucleus as evidence for large parity breaking effects in nuclear scales

    6. Unexpected support for nuclear string model

  8. X boson as evidence for nuclear string model

    1. Two observations and a possible puzzle generated by them

    2. The estimate for Γ (π (113), γ γ ) is consistent with the limits on Γ (X, γ γ )

    3. Model for Γ (π (113), e+e-)

    4. Model based on nuclear strings

    5. Conclusion

  9. Cold fusion, plasma electrolysis, biological transmutations, and burning salt water

    1. The data

    2. H1.5O anomaly and nuclear string model

    3. A model for the observations of Mizuno

    4. Comparison with the model of deuterium cold fusion

    5. What happens to OH bonds in plasma electrolysis?

    6. A model for plasma electrolysis

    7. Comparison with the reports about biological transmutations

    8. Are the abundances of heavier elements determined by cold fusion in interstellar medium?

    9. Tests and improvements

  10. About Physical Representations of Genetic Code in Terms of Dark Nuclear Strings

    1. Background

    2. Models of genetic code based on dark nuclear strings

    3. The model mapping codons to dark 3-nucleon states