recently: why not mention it in blog article.
The article is as an attempt to provide a popular summary about TGD, its motivations, and basic implications. This is of course mission impossible as such since TGD is something at the top of centuries of evolution which has led from Newton to standard model. This means that there is a background of highly refined conceptual thinking about Universe so that even the best computer graphics and animations do not help much. One can still try - at least to create some inspiring impressions. The artice approaches the challenge by answering the most frequently asked questions. Why TGD? How TGD could help to solve the problems of recent day theoretical physics? What are the basic principles of TGD? What are the basic guidelines in the construction of TGD?
These are examples of this kind of questions which I try to answer in the article using the only language that I can talk. This language is a dialect used by elementary particle physicists, quantum field theorists, and other people applying modern physics. At the level of practice involves technically heavy mathematics but since it relies on very beautiful and simple basic concepts, one can do with a minimum of formulas, and reader can always to to Wikipedia if it seems that more details are needed. I hope that reader could catch the basic idea: technical details are not important, it is principles and concepts which really matter. And I almost forgot: problems! TGD itself and almost every new idea in the development of TGD has been inspired by a problem.
Why TGD?
The first question is "Why TGD?". The attempt to answer this question requires overall view about the recent state of theoretical physics.
Obviously standard physics plagued by some problems. These problems are deeply rooted in basic philosophical - one might even say ideological - assumptions which boil down to -isms like reductionism, materialism, determinism, and locality.
Thermodynamics, special relativity, and general relativity involve also postulates, which can be questioned. In thermodynamics second law in its recent form and the assumption about fixed arrow of thermodynamical time can be questions since it is hard to understand biological evolution in this framework. Clearly, the relationship between the geometric time of physics and experienced time is poorly understood. In general relativity the beautiful symmetries of special relativity are in principle lost and by Noether's theorem this means also the
loss of classical conservation laws, even the definitions of energy and momentum are in principle lost. In quantum physics the basic problem is that the non-determinism of quantum measurement theory is in conflict with the determinism of Schrödinger equation.
Standard model is believed to summarize the recent understanding of physics. The attempts to extrapolate physics beyond standard model are based on naive length scale reductionism and have products Grand Unified Theories (GUTs), supersymmetric gauge theories (SUSYs). The attempts to include gravitation under same
theoretical umbrella with electroweak and strong interactions has led to super-string models and M-theory. These programs have not been successful, and the recent dead end culminating in the landscape problem of super string theories and M-theory could have its origins in the basic ontological assumptions about the nature of space-time and quantum.
How could TGD help?
The second question is "Could TGD provide a way out of the dead alley and how?". The claim is that is the case. The new view about space-time as 4-D surface in certain fixed 8-D space-time is the starting point motivated by the energy problem of general relativity and means in certain sense fusion of the basic ideas of special and general relativities.
This basic idea has gradually led to several other ideas. Consider only the identification of dark matter as phases
of ordinary matter characterized by non-standard value of Planck constant, extension of physics by including physics in p-adic number fields and assumed to describe correlates of cognition and intentionality, and zero energy ontology (ZEO) in which quantum states are identified as counterparts of physical events. These new elements generalize considerably the view about space-time and quantum and give good hopes about possibility to understand living systems and consciousness in the framework of physics.
Two basic visions about TGD
There are two basic visions about TGD as a mathematical theory. The first vision is a generalization of Einstein's geometrization program from space-time level to the level of "world of classical worlds" identified as space of 4-surfaces. There are good reasons to expect that the mere mathematical existence of this infinite-dimensional geometry fixes it highly uniquely and therefore also physics. This hope inspired also string model enthusiasts before the landscape problem forcing to give up hopes about predictability.
Second vision corresponds to a vision about TGD as a generalized number theory having three separate threads.
- The inspiration for the first thread came from the need to fuse various p-adic physics and real physics to single coherent whole in terms of principle that might be called number theoretical universality.
- Second thread was based on the observation that classical number fields (reals, complex numbers, quaternions, and octonions) have dimensions which correspond to those appearing in TGD. This led to the vision that basic laws of both classical and quantum physics could reduce to the requirements of associativity and commutativity.
- Third thread emerged from the observation that the notion of prime (and integer, rational, and algebraic number) can be generalized so that infinite primes are possible. One ends up to a construction principle allowing to construct infinite hierarchy of infinite primes using the primes of the previous level as building bricks at new level. Rather surprisingly, this procedure is structurally identical with a repeated second quantization of supersymmetric arithmetic quantum field theory for which elementary bosons and fermions are labelled by primes. Besides free many-particle states also the analogs of bound states are obtained and this means the situation really fascinating since it raises the hope that the really hard part of quantum field theories -
understanding of bound states - could have number theoretical solution.
Guidelines in the construction of TGD
The construction of new physical theory is slow and painful task but leads gradually to an identification of basic guiding principles helping to make quicker progress. There are many such guiding principles.
- "Physics is uniquely determined by the existence of WCW" is is a conjecture but motivates highly interesting questions. For instance: "Why M4× CP2 a unique choice for the imbedding space?", "Why space-time dimension must be 4?", etc...
- Number theoretical Universality is a guiding principle in attempts to realize number theoretical vision, in particular the fusion of real physics and various p-adic physics to single structure.
- The construction of physical theories is nowadays to a high degree guesses about the symmetries of the theory and deduction of consequences. The very notion of symmetry has been generalized in this process. Super-conformal symmetries play even more powerful role in TGD than in super-string models and gigantic symmetries of WCW in fact guarantee its existence.
- Quantum classical correspondence is of special importance in TGD. The reason is that where classical theory is not anymore an approximation but in well-defined sense exact part of quantum theory.
There are also more technical guidelines.
- Strong form of General Coordinate invariance (GCI) is very strong assumption. Already GCI leads to the assumption that Kähler function is Kähler action for a preferred extremal defining the counterpart of Bohr orbit. Even in a form allowing the failure of strict determinism this assumption is very powerful. Strong form of general coordinate invariance requires that the light-like 3-surfaces representing partonic orbits and space-like 3-surfaces at the ends of causal diamonds are physically equivalent. This implies effective 2-dimensionality: the intersections of these two kinds of 3-surfaces and 4-D tangent space data at them should code for quantum states.
- Quantum criticality states that Universe is analogous to a critical system meaning that it has maximal structural richness. One could also say that Universe is at the boundary line between chaos and order. The original motivation was that quantum criticality fixes the basic coupling constant dictating quantum dynamics essentially uniquely.
- The notion of finite measurement resolution has also become an important guide-line. Usually this notion is regarded as ugly duckling of theoretical physics which must be tolerated but the mathematics of von Neumann algebras seems to raise its status to that of beautiful swan.
- What I have used to call weak form of electric-magnetic duality is a TGD version of electric-magnetic duality discovered by Olive and Montonen. It makes it possible to realize strong form of holography implied actually by strong for of General Coordinate Invariance. Weak form of electric magnetic duality in turn encourages the conjecture that TGD reduces to almost topological QFT. This would mean enormous mathematical simplification.
- TGD leads to a realization of counterparts of Feynman diagrams at the level of space-time geometry and topology: I talk about generalized Feynman diagrams. The highly non-trivial challenge is to give them precise mathematical content. Twistor revolution has made possible a considerable progress in this respect and led to a vision about twistor Grassmannian description of stringy variants of Feynman diagrams. In TGD context string like objects are not something emerging in Planck length scale but already in scales of elementary particle physics. The irony is that although TGD is not string theory, string like objects and genuine string world sheets emerge naturally from TGD in all length scales. Even TGD view about nuclear physics predicts string like objects.
For details see the new article Why TGD?.
8 comments:
Gosh. This is GOOD, can I borrow it to my blog?
http://universe-review.ca/R15-17-relativity14.htm about dimensions as a compactification :)
Hi Ulla,
I already answered but for some reason the reply
is not visible. I try again: you can of course borrow.
There are this kind of problems also with the previous post.
are the KK particles thought to actually exist? Ulla, with all due respect you do not have the information to speak about my mind not being synced up (to what? ) it is a common problem with laggy text based communication
To Crow:
You seem to be referring to the idea about large dimensions predicting KK particles - it appears in the article that Ulla is linking to. Lisa Randall was the mother of Kaluza-Klein model assuming 5:Th. large dimension plus stringy view. LHC killed the idea during the first year of its activity. This meant a sad fate for KK particles too. KK approach in its original form has been dead for a long time: in ability to predict parity breaking is one of the basic reasons.
One can fairly say that all - very few actually - real predictions of unifications that have emerged during last forty years have suffered the same fate. A sign that some common assumption is fundamentally wrong. Actually many of them- naive reductionism is one of these wrong principles.
Perhaps this explains the slight frustration sometimes appearing between lines written by me;-). The people building these models are practical career builders but theoretical physics at fundamental level is for poets;-).
Strassler talked of this 2 years ago. http://profmattstrassler.com/2012/01/16/why-extra-dimensions-lead-to-kaluza-klein-partner-particles-part-1/
and LHC has ruled out extra dimensions?
And Crow, it was YOU that talked of synched up brains or texts.
Ulla, I thought u were talking about the linkage of magnetic and biologicial bodies in TGD... was making a tounge in cheek joke abput the fact that electromagnetism is usually thpught bybthe public to work in gadgets but not bodies...but its both! Matti, thanks for the explanation.. thats what I thought.. was mentioning it for Ullas sake since the linked article was on that topic, sorry for the confusion!
To crow:
Magnetic body is not a randomly introduced esoteric notion as one might think. MB can be
grateful for its existence to the differences between Maxwell's ED and TGD. In TGD classical fields decompose to topological field quanta - space-time sheets- and one can say that any system has field identity besides identify as source of field.
This is enormously important conceptual difference between Maxwell's ED a and TGD nd due to the extreme non-linearity of TGD based field concept.
The linear superposition is lost but replaced with
set theoretic union for space-time sheets: particle topologically condensing on several space-time sheets experiences linear superposition of effects caused by classical fields at them.
Matti, sorry didnt mean to imply the concept was arbitrary :) I do remember the distinction of set theoretic union as opposed to linear superposition. quite a good idea imho
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