1. Basic TGD
  2. Space-time as 4-surface in M4×CP2
  3. Key notions and ideas of TGD
  4. Quantum TGD


Geometrization of physics

  1. General Coordinate Invariance
  2. Geometrization of fields
  3. Geometrization of quantum fields
  4. Geometrization of quantum numbers
  5. Generalized Feynman diagrams

Imbedding space

  1. The notion of imbedding space
  2. Basic facts about imbedding space
  3. Imbedding space
  4. CP2
  5. Why CP2 is unique
  6. Why M4 is unique
  7. Why M4×CP2 is unique
  8. Causal diamonds

Classical physics as exact part of quantum TGD

  1. Classical TGD
  2. Quantum Classical Correspondence
  3. Topological field quantization
  4. Identification of preferred extremals of Kaehler action

Quantum TGD

  1. Quantum TGD
  2. Basic Principles
    1. Zero Energy Ontology (ZEO)
    2. Quantum theory as square root of thermodynamics
    3. Maximal symmetries
      1. General Coordinate Invariance
      2. Super-conformal symmetries
      3. Yangian extensions of basic symmetries
    4. Holography
    5. Quantum TGD as almost topological QFT
    6. Quantum criticality
    7. Equivalence Principle
    8. Quantum Classical Correspondence
    9. Non-determinisms of TGD
    10. Finite measurement resolution and hyperfinite factors
  3. Concrete realization
    1. Quantum theory as square root of thermodynamics
    2. Identification of preferred extremals of Kähler action
    3. Kähler-Dirac action
    4. Kähler-Dirac equation
    5. Various matrices in ZEO
    6. Generalized Feynman diagrams
    7. The unique role of twistors in TGD
    8. Twistors and TGD

    Emergent ideas and notions

    1. Emergent ideas and notions
    2. Weak form of electric-magnetic duality
    3. M8-H duality
    4. Hierarchy of Planck constants
    5. Zero Energy Ontology (ZEO)
    6. Negentropy Maximization Principle
    7. Negentropic entanglement: Akashic records
    8. Hyperfinite factors and TGD

    Comparing with other theories

    1. Comparison with other theories
    2. How TGD differs from standard model
    3. How quantum TGD differs from standard quantum physics
    4. Similarities between TGD and string models
    5. Differences between TGD and string models


    Physics as infinite-dimensional geometry "world of classical worlds" (WCW)

    1. TGD as infinite-dimensional geometry
    2. Geometry of WCW
    3. Structure of WCW
    4. WCW gamma matrices
    5. WCW spinor fields
    6. Vacuum functional

    Physics as generalized number theory

    1. Physics as generalized number theory
    2. Quantum physics as generalized number theory
    3. p-Adic Physics
      1. p-Adic number fields
      2. p-Adic physics
      3. p-Adic numbers and cognition and intention
      4. p-Adic length scale hypothesis
      5. p-Adic manifold
      6. p-Adic mass calculations
      7. Negentropic entanglement.
    4. TGD and classical number fields
      1. M8-H duality
      2. Basic notions behind M8-H duality
      3. Quaternionic planes of octonions
    5. Infinite primes


    1. Applications of TGD
    2. Particle physics
      1. TGD view about elementary particles
      2. Bosonic emergence
      3. p-Adic mass calculations
      4. Elementary particle vacuum functionals and family replication phenomenon
      5. Higgs in TGD
      6. Elementary particle vacuum functionals
      7. SUSY and TGD
      8. Leptohadron hypothesis
      9. M89 hadron physics
    3. Nuclear physics
      1. Nuclear string model
      2. Widom-Larsen theory from TGD point of view
      Condensed matter physics
      1. High temperature superconductivity
      2. Quantum Hall effect and hierarchy of Planck constants
      3. Rotating magnetic systems and dark matter
    4. General Relativity, astrophysics, and cosmology
      1. Many-sheeted space-time and topological condensation
      2. TGD and GRT
      3. TGD inspired cosmology
      4. Cosmic strings
      5. Magnetic flux tubes
      6. The origin of cosmologial constant
      7. TGD and inflation
      8. Astrophysics and TGD
      9. Gravitational Planck constant
      10. Gravitational anomalies


    1. Motivating anomalies
      1. Anomalies behind TGD view about biology
      2. Anomalies associated with cell membrane
      3. Effects of ELF radiation on vertebrate brain
      4. Pollack's observations
    2. General ideas
      1. TGD inspired quantum biology
      2. Quantum biology
      3. Hierarchy of Planck constants
      4. Quantum gravity and biology
      5. Negentropy Maximization Principle
      6. Negentropic entanglement: Akashic records
      7. 4-D spin glass degeneracy
      8. Quantum self-organization
      9. Magnetic body
      10. Basic Mechanisms associated with magnetic body
      11. Bio-superconductivity
      12. Quantum antenna hypothesis
    3. Specific models
      1. Two models for cell membrane as Josephson junction
      2. Biophotons
      3. The role of microtubules
      4. Biosystem as topological quantum computer
      5. Dark proton strings and genetic code
      6. Genes and memes
      7. Water as prebiotic life form
      8. Water memory and homeopathy
      9. Bio-catalysis from primitive immune system
      10. Remote gene expression
      11. Origin of genetic code
      12. Quantum model for metabolism
      13. DC currents of Becker


    1. General ideas
      1. TGD inspired theory of consciousness
      2. Quantum consciousness
      3. Negentropy Maximization Principle
      4. Negentropic entanglement: Akashic records
      5. Zero Energy Ontology (ZEO)
      6. The notion of self
      7. Quantum model of qualia
      8. p-Adic numbers and cognition and intention
    2. Time and consciousness
      1. The notion of time in TGD Universe
      2. Nature of time
      3. Quantum model of memory
    3. Quantum intelligence
      1. Quantum intelligence
      2. Quantum Boolean intelligence
      3. Intelligence and hierarchy of Planck constants
    4. Applications of TGD inspired theory of consciousness
      1. Quantum model for nerve pulse
      2. Quantum model for sensory perception
      3. Quantum model for sensory receptor
      4. Quantum model of EEG