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On Hemiolia Principle and Ornamental Numbers
Scientific manuscript, created at 15th May, 2013. Unfinished article
Modra Tenisona Zīmju semināra ieraksti
Piedāvājam Modra Tenisona Zīmju Semināra nelielus ierakstus.
1. daļa https://youtu.be/QFHdv2HTrhE
2. daļa https://youtu.be/SAyh0_vOdBk
Modra Tenisona seminārs parasti bija sadalīts divās daļās, katrs no tā ap piecas stundas garš. Tas nebija viegli piecas stundas intensīvi darboties Modra vadībā, bet tie, kas to spēja izturēt, bija ļoti pateicīgi viņam par šo ievadīšanu neparastajā ornamentālistikas pasaulē. Sajā ierakstā tikai neliels pieskāriens tai atmosfērai, kāda valdīja šajos semināros. Šādi semināri notika ne tikai Latvijā. Tie tika rīkoti arī citās valstīs un pilsētās. Zināms, ka tādi notika Lietuvā, arī cituviet
Aramaiskie pētījumi: Gramatiskā sieta nobīde un Tenisona brīvība
Aplūkota ideja aplūkot semītu valodā gramatisku nobīdi analoģijā ar Modra Tenisona ornamentu ģenēzes teoriju, ar tajā ieviesto sieta nobīdi.
Skatījums veikts ChatGPT pielietojuma kontekstā, analizējot biblisko valodu nelielu korpusu
Vēstule Floriānam Gābaueram “Par medicīniskā lāzera kodēšanu un Tenisona lingvistisko paradigmu”
Vēstule Floriānam Gābaueram “Par medicīniskā lāzera kodēšanu un Tenisona lingvistisko paradigmu”.
Vēstulē mēģinu skaidrot Modra Tenisona ornamentu teorijas dažus elementus. Viens no jautājumiem, ko sastopam M.T. pieejā ornamentiem, ir - vai ornamentu pamatā ir attēli vai kodēšana. Šo pašu jautājumu meģinu jautāt arī lāzerfiziķim Floriānam Gābaueram, bet jau to attiecinot uz citu jomu, cilvēka ķermeņa anatomiju, un tās reakciju uz lāzeriem, ko mēs mēģinātu kvalificēt kā medicīniskos lāzerus
Could neuronal system and even GPT give rise to a computer with a variable arrow of time?
The discussions related to ChatGPT, which seems to work too well to be a mere program running in a classical computer, inspired considerations which led to a considerable progress at the level of the TGD based model of nerve pulse. The emerging model, based on zero energy ontology (ZEO), differs drastically from quantum neural networks and suggests a completely new vision of quantum physics based computation in biosystems. A computation allowing variable arrow of time would be in question involving a sequence unitary time evolutions as counterparts of quantum computations for states, which are superpositions of classical computations, followed by ”small” state function reductions (SSFRs) as counterparts of weak measurements of quantum optics and of Zeno effect. Also ”big” SFRs (BSFRs) changing the arrow of time would be involved. One can ask whether the unexpected success of GPT might involve this kind of transition so that one could say that spirit enters the machine. Besides the outcomes of two chats, I include a more detailed view about what the TGD view of the quantum analog of GPT could be and how its analog could be involved with the sensory perception in the TGD Universe. I also discuss the inverse diffusion process central for the generation of images from their verbal descriptions and ask whether the TGD analogue of the inverse diffusion could be an essential element of also GPT.
I will also pose the question whether GPT could involve TGD based quantum physics, that is zero energy ontology (ZEO), in a non-trivial but hidden way. From quantitative constraints, such as the clock frequency of the computer as analog of EEG inducing temporal quantum coherence, I end up with a proposal for a mechanism realizing the quantum holography relating bits could be represented as holes pairing with dark bits represented as dark electrons at
the magnetic flux tubes. Unfortunately, this mechanism does not look plausible for recent computers. I also ask whether quantum gravitation in the sense of TGD could make possible for the magnetic bodies of Earth and Sun, central in TGD inspired biology, to transform classical computation so that so that statistical determinism would fail and it would be analogous to a sequence of analogs of quantum computations defining a conscious entity. At the level of magnetic body there would be no essential difference between computers and living matter. The highest reported clock frequency of almost 9 GHz is still by a factor of order 1/8 lower
than the quantum gravitational Compton frequency of 67 GHz for Earth but below the THz frequency important in living matter. Perhaps a rudimentary consciousness is already possibl
Armenian conference dedicated to the 850th death anniversary of St. Nerses the Gracious
Conference section 1
Opening of the conference with speeches by official persons
Boghos Levon Zekiyan, Archeparch of Istanbul and Turkey for the Catholic Armenians - Saint Nerses Shnorhali as a Unique Figure in Christian Thought And Praxis: Shnorhali’s
Pioneering Vision of Christian Oecumenism
Claude Mutafian, Dr.hist. (University of Paris) -- Mleh, a Successful Armenian Prince (1169- 1175)
Andris Priede, Dr.hist.eccl. (Faculty of Theology, University of Latvia) - Marginal Forms of Armenian Monasticism in 13th Century
Valda Salmiņa, M.A. - St. Nerses Shnorhali’s historical poem “Lament of Edessa”
Conference section 2
Vahan S. Hovhanessian, Bishop PhD (Karekin the First Research Center) -Analysis of the Four Gospels attributed to St. Nerses the Graceful
Abraham Terian, Prof. emeritus (St. Nersess Armenian Seminary) - Shnorhali’s Commentary on the Beatitudes
Elizabete Taivāne, Dr.theol. (Faculty of Theology, University of Latvia) -Christology of St. Nerses Shnorhali at the Crossroads of Eastern and Western Theology: The Edifying Details Conference section 3
Ojārs Spārītis, Dr.habil.art. (Latvian Academy of Arts) - View on Sacral Architecture of Central Armenia
Haig Utidjian, PhD (CESEM, New University of Lisbon) - The music of the Šnorhali Corpus: challenges and rewards
Arusyak Tamrazyan, PhD (Matenadaran, Research Institute of Ancient manuscripts) - Mystical symbolism in melismatic performance: the odes by St Nersēs th
Quantum Gravitation and Topological Quantum Computation
In this article the connection of quantum gravitation, as it is understood in the TGD framework, with topological quantum computation (TQC) is considered. I sketched the first TGD based vision about DNA as a TQCer for about 13 years ago. In particular, a model of the system consisting of DNA and nuclear/cell membrane system acting as a TQCer was discussed.
TGD has evolved a lot after this and there are several motivations for seeing what comes out from combining the recent view about quantum TGD and TGD inspired quantum biology with this model.
\begin{enumerate}
\item There is a rather detailed view about the role of dark matter as phases of ordinary matter with the effective Planck constant . Large values of allow to overcome the problems due to the loss of quantum coherence.
This leads to the notion of the dark DNA (DDNA), whose codons are realized as dark proton triplets and proposed to accompany the ordinary DNA. Also dark photon triplets are predicted and one ends up to a model of communications and control based on dark cyclotron resonance in which codons serve as addresses and modulation of the signal frequency scale codes the signal to a sequence of pulses. Nerve pulses could be one application.
\item Quite recently, also the understanding of the possible role of quantum gravitation in biochemistry, metabolism, bio-catalysis, and in the function of DNA has considerably increased. The gravitational variants of hydrogen bonds and valence bonds between metal ions having very large value of , where is the gravitational Planck constant originally introduced by Nottale, are in a key role in the model and explain metabolic energy quantum as gravitational energy liberated when dark protons "drops" from a very long gravitational flux tube in the transition . Also electronic metabolic energy quantum is predicted and there is empirical support for this.
\item A further motivation comes from the number theoretic vision of quantum TGD. Galois groups as symmetry groups represent new physics and the natural questions are whether Galois groups could give rise to number theoretic variants of anyons and what could the TGD counterparts of the condensed matter (effective) Majorana electrons proposed by Kitaev as anyon like states?
The answer is that quantum superpositions of symmetric hydrogen bonded structures of form X..H-H+X-H...X are excellent candidates for the seats of dark () bi-localized electrons defining TGD analogs of condensed matter Majorana electrons.
The Galois groups permute the roots of a polynomial, which determines a space-time region by duality. The roots correspond to mass squared values, in general algebraic numbers, and thus to mass hyperboloids in . The images correspond to 3-hyperboloids with a constant value of light-cone proper time. Therefore the Galois group can permute points with time-like separation. Note however that the real or rational parts of two values of can be same.
This looks very strange at first but actually confirms with the fact that time-like braidings defining TQC correspond in TGD time-like braidings (involving also reconnections) of string like objects defining string world sheets, which are not now time evolutions of space-like entities as physical state but correspond to time-like entities defining boundary data necessary for fixing holography completely. Their presence is forced by the small failure of the determinism of the action principle involved and is completely analogous to the non-determinism for soap films with frames serving as seats for the failure of determinism.
\item Braidings appear therefore at the level of fundamental TGD and correspond to string world sheets. They are possible only in 4-D space-time but not in string models.
Also TQC-like processes appear automatically at the level of fundamental physics. In particular, the number theoretical state function reduction cascade for the Galois group following the time evolution induced by braiding can be regarded as a generalization of a decomposition of integers to primes: now primes are replaced by simple groups defining primes for finite groups. Nature is doing number theory!
\item Also zero energy ontology (ZEO) brings in new elements. The change of the arrow of time in "big" state function reductions (BSFRs) implies that dissipation with a reversed arrow of time provides an automatic error correction procedure. Also TQC in which the arrow of time varies for sub-modules, can be considered.
\end{enumerate
Finite fields and TGD
TGD involves geometric and number theoretic physics as complementary views of physics. Almost all basic number fields: rationals and their algebraic extensions, p-adic number fields and their extensions, reals, complex number fields, quaternions, and octonions play a fundamental role in the number theoretical vision of TGD.
Even a hierarchy of infinite primes and corresponding number fields appears. At the first level of the hierarchy of infinite primes, the integer coefficients of a polynomial defining infinite prime have no common prime factors. hypothesis states that the polynomial defining space-time surface is identical with a polynomial defining infinite prime at the first level of hierarchy.
However, finite fields, which appear naturally as approximations of p-dic number fields, have not yet gained the expected preferred status as atoms of the number theoretic Universe. Also additional constraints on polynomials are suggested by physical intuition.
Here the notions of prime polynomial and concept of infinite prime come to rescue. Prime polynomial with prime order and integer coefficients smaller than can be regarded as a polynomial in a finite field. The proposal is that all physically allowed polynomials are constructible as functional composites of prime polynomials satisfying condition
Some aspects of Topological Geometrodynamics(TGD) and TGD inspired theory of consciousness
Seminar in Riga, 25.November, 2022
Homology of ”world of classical worlds” in relation to Floer homology and quantum homology
One of the mathematical challenges of TGD is the construction of the homology of "world of classical worlds" (WCW). The generalization of Floer homology looks rather obvious in the zero ontology (ZEO) based view about quantum TGD. ZEO, the notion of preferred extremal (PE), and the intuitive connection between the failure of strict non-determinism and criticality are essential elements. The homology group is defined in terms of the free group formed by preferred extremals for which is a stable maximum of K\"ahler function associated with the passive boundary of CD and associated with the passive boundary is a more general critical point.
The identification of PEs as minimal surfaces with lower-dimensional singularities as loci of instabilities implying non-determinism allows to assign to the set numbers as the number of instabilities of singularities leading from to and define the analog of criticality index (number of negative eigenvalues of Hessian of function at critical point) as number . The differential defining WCW homology is defined in terms of for pairs such that is satisfied