A. Einstein, "We can't solve problems by using the same kind of thinking we used when we created them".

A. Einstein, "For us believing in physicists, the distinction between past, present and future is only a stubbornly persistent illusion".

H. Weyl, "We are not surprised that a concrete chunk of nature, taken in its isolated phenomenal existence, challenges our analysis by its in exhaustibility and incompleteness; it is for the sake of completeness, as we have seen, that physics projects what is given onto the background of the possible", (WeH) p. 220.

(1) A Digamma/Kummer functions based proof of the Riemann Hypothesis

Based on the negative real zeros of the Digamma function an alternative representation of the Riemann density function J(x) is provided where its critical(oscillating) sum is replaced by two non-oscillating sums, both enjoying the required asymptotics O(square root of x) which proves the Riemann Hypothesis.

(2) A non-harmonic Fourier series based circle method to solve additive number theory problems

The specific common properties of the real negative zeros of the Digamma function and the imaginary part of the only complex valued zeros of a specific Kummer function allow the definition of corresponding weighted „retarding“ sequences fulfilling the Kadec condition. This enables the full power of non-harmonic Fourier series theory on the periodic L(2) Hilbert space with its relation to the Paley-Wiener space. In line with the proof of the RH those sequences allow a split of the Riemann density function J(x) into a sum of two number theoretical non-harmonic Fourier series, each of them governing one of two unit half-circles. Correspondingly, each pair of primes (p,q) of binary number theoretical problems can be governed by those two different number theoretical distribution functions. This overcomes current challenges caused by the dilution of the prime number sequence as x tends to infinite.


Braun K., A Digamma function based proof of the RH and a nonharmonic Fourier series based two-semi-circle method to solve additive number theory problems

                                            August 25, 2021


Braun K., Supporting data to prove the RH and the Goldbach conjecture

                                            August 26, 2021

Further supporting data:


Edwards H. M., Riemann s Zeta Function


(LeB) Lectures on Entire Functions, Lecture 5


(LeN) Gap and density theorems, VI and VII


(PaR) Fourier transforms in the complex domain, 22 and 33


Wiener N., The mean square modulus of a function


Braun K., A Kummer function based Zeta function theory to prove the Riemann Hypothesis and the Goldbach conjecture

                                             March 27, 2017


Braun K., A distributional way to prove the Goldbach conjecture leveraging the circle method

                                             January 8, 2015


Braun K., RH solutions

                                                July 31, 2019

(3) A Bessel function based proof that the Euler-Mascheroni constant is irrational

Braun K., A Bessel function based proof that the Euler constant is irrational
                                             June 26, 2021

(4) A Hilbert scale based integrated gravity & quantum field model

The gravity field theory and the quantum field theory are inconsistent from a physical and from a mathematical perspective.  

Handicap 1: Lacking a common mathematical framework there is a large zoo of elementary particles. The root of the evil is already in place in Maxwell’s phenomenogical theory of electricity, as the theory cannot hold for the interior of the electron. From the point of view of ordinary theory of electrons one must treat the electron as something given a priori, as a foreign body in the field.  

Handicap 2: The concealed motions of the electrons are not taken into account as motions of matter, consequently electricity is not supposed attached to matter in the Maxwell theory. The only way to explain how it is that a piece of matter carries a certain charge is to say this charge is that which simultaneously in the portion of space that is occupied by the matter at the moment under consideration. From this it comes that the charge is not, as in the theory of electrons, an invariant determined by the portion of matter, but is dependent on the way the world has been split up into space and time.  


Braun K., A gravity and quantum field model, some royal road markers

                                                 April 14, 2021


Braun K., A Hilbert scale based consistent gravity and quantum field model

                                                 May 22, 2021

The Mie theory

A more general theory of electrodynamics has been proposed by Mie, by which it seems possible to derive the matter from the field.

The requirement leading to the Mie equations is that the mechanical law must follow from the field equations. Therefore, the Mie equation is fully analogous to that of the fundamental law of mechanics. In the static case that is, the electric force is counterbalanced in the ether by the concept of an „electric pressure“. It is the essential differentiator to the Lorentz equations, where there is no law that determines how the potentials depend on the phase-quantities of the field and on the electricity; there is only a formula giving the density of the mechanical (ponderomotorische) force and the law of mechanics, which governs the motion of electrons under the influence of this force.

Mie’s theory resolves the problem of matter into a determination of the expression of the Hamiltonian function in terms of four quantities and the laws for the field may be summarised in a Hamilton’s principle.

(WeH): "G. Mie in 1912 pointed out a way of modifying the Maxwell equations in such a manner that they might possibly solve the problem of matter, by explaining why the field possesses a granular structure and why the knots of energy remain intact in spite of the back-and-forth flux of energy and momentum. The Maxwell equations will not do because they imply that negative charges compressed in an electron explode; … The preservation of the energy knots must result from the fact that the modified field laws admit only of one state of field equilibrium  … The field laws should thus permit us to compute in advance charges and mass of the electron and the atomic weights of the various chemical elements in existence. And the same fact, rather than contrast of substance and field, would be the reason why we may decompose the energy or inert mass of a compound body (approximately) into the non-resolvable energy of its last elementary constituents and the resolvable energy of their mutual bond.  ….  At a certain stage of the development it did not seem preposterous to hope that all physical phnomena could be reduced to a simple universal field law (in the form of a Hamiltonian principle)."

In mechanics, a definite function of action corresponds to every given mechanical system and has to be deduced from the constitution of the system. Mie’s theory is only concerned with a single system, the world. This is were the real problem of matter takes its beginning: to determine the Mie „world-function of action“, belonging to the physical world. 

The proposed gravity and quantum field model is basically an enhanced Mie electrodynamic overcoming the above difficulty which is basically caused by a missing truly geometric structure of the underling manifolds w/o any conceptual relationship to all possible mathematical solution of the Mie equations. Therefore, the enhancement is concerned with a replacement of the manifold framwork by a Hilbert space, where its inner product induces a corresponding norm and where an existing hermitian operator induces a corresponding energy norm, governing for example the least action or least energy formalisms.

The common baseline with the proposed NSE solution in line with the proposed YME solution is related to the physical notion "pressure", which has the same unit of measure than a "potential difference". The common additional conceptual new element is the fact that a "potential difference" becomes now an intrinsic element of the corresponding PDE systems governed by the closed "potential energy" ("ground state", "internal energy") sub-space.


Braun K., A Hilbert space based Mie electricity field theory accompanied by a complementary 0-point energy space

                                         September 15, 2021

Supporting data:

The Mie theory

                           Weyl H., "Space, Time, Matter", p. 206 ff.

The proposed gravity and quantum field model

From a mathematical perspective the proposed gravity and quantum field model is about a variational representation of a Hamiltonian operator with defined domain in an appropriate Hilbert scale framework. The Heisenberg (matter particle) matrices mechanics and the Schrödinger (matter wave) PDE mechanics are equivalent with respect to their common related mapping descriptions of the corresponding Hilbert space based linear operators. However, a linear operator is only well defined in combination with an appropriately defined domain, which differs in case of the Lagrange and the Hamilton formalisms. Paraphrasing Roger Penrose‘s „The Emperor's New Mind“ one might say „look, the emperor is naked“.

The common denominator with Heisenberg’s mathematical tool set for "a unified field theory of elementary particles", (HeW), is about a Hilbert space framework accompanied with an indefinite inner product resp. metric (norm), (HeW). The essential differentiators are

1. there is only one fundamental (Hamiltonian based) conservation law accompanied with two underlying connected „symmetry“ groups, the two components of the complex Lorentz transform

2. the several possible invariants of other fundamental laws (resulting into corresponding observables, which hold unchanged over time during those processes, which are described by those laws) are modelled by an appropriately defined „self-adjoint“ operator, where the operator mapping describes the law, while the operator domain provides the required discrete and continuous spectra, where only discrete spectra become relevant for the (Lagrange formalism governed) physical world.

From a physical perspective the proposed gravity and quantum field model is basically the variational representation of the Hamiltonian built from an enhanced Mie electrodynamics accompanied by the conception of an „electromagnetic pressure“. In this context we note the Novel Prize awards to W. Lamb & P. Kusch, (1955) for „the discoveries concerning the fine structure of the hydrogen spectrum“ & „the precision determination of the magnetic moment of the electron'', i.e. there are „a so-called Lamb shift of the Schrödinger equation calculated energy levels“ and "a magnetic moment of an electron".

The Hilbert space based model and point 1 overcomes the main difficulty of the GRT, which is basically caused by a missing truly geometric structure of the underling manifolds. Regarding the two connected group components of the complex Lorentz transform we note that in order to fulfill the required symmetry of the SRT the wave equation of a relativistic, force-free Dirac particle needs to be of order one with respect to the time and to the space variables . The corresponding Dirac matrix equations are determined by the „rest matrix“ R, the „velocity matrix“ V, the „spin matrix“ S, and the „pseudo-scalar matrix“ T, which links V=T*S. The matrices R and T, resp. the matrix S build two groups, where their related matrices are mutually interchangeable; on the other hand within each group they are anti-interchangeable, (MaW).

The Hilbert space based model and point 2 overcomes the push back argument of Mie’s theory, which is about the selection of physical relevant solution (the physical world law) out of the infinite numbers of possible Mie solutions.

In the context of a Hamiltonian formalism and the notion „spontaneous symmetry break down“ we recall from (BiJ) p. 48:

When an exact symmetry of the laws governing a system is not manifest in the state of the system the symmetry is said to be spontaneously broken. Since the symmetry of the laws is not actually broken it would perhaps be better described as „hidden“, but the term „spontaneously broken symmetry“ has stuck.“

Devoted to hydrodynamics and turbulence R.Feynman observed, that

we very possible already have the equation to a sufficient approximation of an equation for life, the equation of quantum mechanics, ... and ... we have the NSE for a detailed observation and the restruction of turbulent flow of an incompressible fluid“ (from this equation for life), (FrU) p. 1.

Supporting data:


Braun K. , A new ground state energy model

                                             August 18, 2013


Braun K., Comparison table, math. modelling frameworks for SMEP and GUT

                                               May 29, 2017

Braun K., An alternative Schroedinger (Calderon) momentum operator enabling a quantum gravity model

                                           December 31, 2017


Riesz operators and rotations


Legendre transforms


Einstein A., Ritz W., Zum gegenwärtigen Stand des Strahlungsproblems

Nitsche J. A., lecture notes, approximation theory in Hilbert scales, extensions and generalizations

Thermal, mechanical or plasma equilibria & turbulence

When a fluid is driven away from thermal or mechanical or plasma equilibrium, it will often undergo a sequence of instabilities, each of which leads to a change in the spatial or temporal structure of the flow. The nature of these instabilities sometimes lead to turbulence. Hydrodynamic turbulence is about a turbulent flow of an incompressible fluid modelled by the NSE.

(BrP): "turbulence studies may be defined as the art of understanding the Navier-Stokes equations without actually solving them …We can now define turbulence:Turbulence is a three-dimensional time-dependent motion in which vortex stretching causes velocity fluctuations to spread to all wave lengths by the boundary conditions of the flow. It is the usual state of fluid motion except at low Reynolds numbers. ... Unother simplification in the study of turbulence is that ist general behavious is apparently unaffected by compressibility if the pressure fluctuations within the turbulence are small compared with the absolute pressure, that is, if the fluctuating Mach number, u/(speed of sound) say, is small."


R. Feynman devoted to hydrodynamics and turbulence

Plasma is that state of matter in which the atoms or molecules are found in an ionized state. The interactions of electrons and ions are determined by long-range electrical forces. The many forms of collective motion in a plasma are the result of coupling the charged-particle motion to the electromagnetic field. Therefore, the electromagnetic field which accompanies the particle motion is also a random nonreproducible quantity in a turbulent plasma. Measurements have shown that the fields excited in a plasma during the development of turbulence do in fact have a random nature.“, (TsV) p. 4.

"The turbulence of plasma differs from the hydrodynamic turbulence by the action of the magnetic field. A more relevant difference is due to the hydrodynamic interaction between the plasma particles, the interaction with the magnetic fields, and the interaction between the electromagnetic waves. ... All of them are the root cause of electromagnetic plasma turbulence. ... The case of interactions between quasi-stationary electromagnetic waves is called weak turbulence. ... The case of non-linear Landau damping (strong plasma turbulence) leads to the generation of virtual waves, which transfer their energy to the affected particles asymptotically with 1/t; the plasma is heated (turbulence heating) faster than this may happen by purely particles collisions", (CaF) p. 390 ff:.

An accepted purely quanta field theory

- is based on extended Maxwell-Mie equations, where (positively charged) proton and (negatively charged) electron masses are energetically „balanced / generated“ by Mie‘s electromagnetic pressure concept, alternatively to the SMEP ("Standard" (or "Shaky") Model of Elementary Particles) concept of "strong elementary particles interaction". The „beta decay“ process (also called „weak elementary particles interaction“) is when a single neutron decays into a proton, an electron, and an anti-neutrino. The proposed underlying Hilbert space decomposition H(+)+H(-)+H(~) provides a suitable framework for an integrated model of electromagnetic and "weak elementary particles interactions". In other words, the Maxwell-Mie equations make the Yang-Mills equations obsolete and the related Millennium problem (the YME massgap problem) is solved

- enables corresponding (weak variational) well-posed 3D non-linear, non-stationary Navier-Stokes equations (NSE) accompanied by a non-vanishing, bounded H(1/2)-energy norm non-linear term as a consequence of the lemma of P. E. Sobolevskii, (see Lemma 3.2 in (GiY), resp. the original proof of P. E. Sobolevskii, (SoP)); we note that the L(2)-based non-linear term (Bu,u) of the NSE vanishes, i.e. it provides no contribution to the energy ("stability") inequality 

- provides problem adequate Hilbert space norms for a mathematical proof of the non-linear Landau damping phenomenon. Mathematical speaking the non-linear Landau damping (the strong plasma turbulence case) is a specific behavior of linear waves in plasma governed by the non-linear term of the considered PDE system 

- provides a Hilbert space based variational plasma heating model governed by a mathematical Hamilton formalism enabling an approximating (statistical) physical Lagrange formalism governed by the Heisenberg uncertainty inequality, accompanied by approximation theory in Hilbert scales, and supported by related numerical approximation methods, (FEM, BEM)

- enables an (enhanced Mie equation based) enhanced SRT (replacing the GRT) where the Maxwell-Lorentz group with its underlying four disconnected components is replaced by the complex Lorentz group with its underlying two connected components

- provides a baseline model for a „larger conception of what has to be understood in order to make sense of the natural world. …. assuming that the intelligibility of the world, as desribed by the laws that science has uncovered, is itself part of the deepest explanation of why things are as they are“, (NaT) pp. 16, 17.

Regarding the Hilbert space H(1/2) and its relation to the strong Szegö theorem, to the (bounded mean oscillation) function spaces VMO & BMO, its occurance in works on topological degree/winding number and on conformal mapping we refer to the references in ((BiN). Regarding the elegant role of H(1/2) in universal Teichmüller theory and its quantization we refer to (NaS), (SeA). For its relevance in aerodynamics we refer to (LiI), (LiI1).

The complex Lorentz group & the CPT theorem

The complex Lorentz group provides the central tool in the proof of the CPT theorem. It says that any Lorentz invariant quantum field theory must also be invariant under the combined operation of charge conjugation C, parity P, and time reversal T, even though none of those individual invariances need hold. Physically speaking the CPT theorem says, that in quantum field theory there is a mathematically proven symmetry of the combined three physical (measurable) attributes of a quantum artefact (i.e. temporal orientation, spatial handedness, and matter–anti-matter transformation). In other words, the CPT theorem (which may be called the PT-theorem, see below) provides a mathematically proven physical law.

(ArF) pp. 639, 646: "In quantum field theory particle states correspond to „positive frequency“ solutions of the corresponding classical field theory, while anti-particle states correspond to „negative frequency“ solutions. Since PT turns positive frequency solutions into negative frequency solutions, PT in quantum field theory turns particles into anti-particles.

Tentative conclusions: Whether a particle has positive or negative charge is determined by the temporal direction in which the four-momentum of particle points.  … the CPT theorem should be called the PT-theorem. It holds for classical and quantum tensor fields theories, fails for classical spinor field theories, but it holds for quantum spinor fields. The fact that it holds for quantum field theories suggests that space-time has neither a temporal orientation nor a spatial handedness."

In the context of the CPT symmetry and Lee-Yang’s law of parity conservation (Nobel prize 1957) we quote from (UnA2), "The dance of electrons and light":

…. „Long before the symmetry fashion took over, Richard Feynman became famous for his intriguing interpretation of the interactions of electrons, positrons, and light. The basic idea is fairly easy to grasp. Thanks to Heisenberg’s uncertainty principle, a traveling electron can borrow for a little time t an amount of energy E = h/t. Electrons may use this energy for juggling with photons. Like two people sitting on wheeled office chairs who are throwing heavy medicine balls to one another and rolling backward every time they pitch or catch the ball, two electrons that exchange photons knock each other back, too. Feynman managed to reformulate the laws of electrodynamics—two electrons feel a repulsive force—in these funny terms. The calculations based on this have led to predictions that have been precisely tested and are considered the best-measured results of all physics (The magnetic moment of an electron (its inherent magnetism) and the so-called Lamb shift in the spectral lines of a hydrogen atom). Richard Feynman, Julian Schwinger, and Sin-Itiro Tomonaga were justifiably awarded the Nobel Prize for this in 1965. The big insight of the theory is that light and the most basic particles, electrons and positrons, show such a puzzling similarity. Yet nobody knows the reason for it."

Gravity and the Mach hypothesis

Regarding „gravity“ and the proposed quanta field model we note Mach’s knowledge, (UnA1) pp. 62,65, 66:

the laws of dynamics could depend only on the motion of masses relatively to each other, ... and

the laws of nature are independent to accelerated motion.

The Mach hypothesis (anticipating Einstein’s later comparison of inertial and gravitational mass known as the equivalence principle) is that distant celestial objects must be responsible for masses having gravitational properties. …  
The Mach principle has two different aspects. First, and qualitatively, just as the (Einstein) equivalence of principle, it says that inertia and gravitational mass are mystereriously connected. Secondly, Mach also claimed that inertia (i.e. the resistance to acceleration) must have its origin in the relative acceleration with respect to all other masses in the universe.This meant that the strength of gravity was also determined by every other celestial body – and suddenly we have a quantitiative statement“.

Compactly embedded physical macro & micro "realities" into a mathematical "reality"

The conceptual framework of the proposed quanta (dynamics) field model is about two compactly, densely embedded "physical worlds" into an overall "mathematical world"; whereby the two "physical worlds" describe the classical mechanics and the quantum mechanics "world". The two physical "worlds" are concerned with matter particle interactions. The corresponding mathematical models are classical resp. variational representation of 2nd order PDE, governed by the sum of a H(a)-coercive, linear operator with a=1/2 and a non-linear operator. The latter one can be split into a sum of a linearized, compact operator and a "remaining" operator, i.e. the two (physical "world") linear (observable) operators are governed by the Garding inequality. As "physical worlds" approximation solutions are at least elements of the compactly embedded Hilbert space H(1) the prerequisites of the Lax-Milgram theorem are fulfilled ensuring well defined classical or quantum mechanical "physical world" models.

From Cantor's cardinality perspective accompanied by Lebesgue's integral concept (which is the baseline tool for the probability & statistics theories) the "classical physical world" is a "zero-(sub-) set" of the "physical quanta mechanical world", which is a "zero-(sub-) set" of an overall "mathematical world". The domain inclusions of considered "observable" operators "promote" symmetric operators with a sub-space domain into self-adjoint operators with including domain.

The mathematical model framework (compactly embedded Hilbert spaces H(2),H(1),H(1/2),L(2),H(-1/2)) enables

- the following hierarchy of (variational) PDE models: the solution of a classical PDE of 2nd order is an H(2)-approximation of the underlying (kinematical) variational solution, which is an H(1)-approximation of the underlying (dynamical) variational H(1/2) solution

- puts the spot on the philosophical world pictures of (NaT), (with the sub-title statement "... is almost certainly false", i.e. the mathematical probability being true is zero), and (DüH):

(NaT) p. 4: „My target is a comprehensive, speculative world picture that is reached by extrapolation from some of the discoveries of biology, chemistry, and physics – a particular naturalistic Weltanschauung that postulates a hierarchical relation among the subjects of those sciences, and completeness in principle of an extrapolation of everything in the universe through their unification."

(DüH) p. 79: „Die Wirklichkeit ist ein nicht-auftrennbares, immaterielles Beziehungsgefüge, eine Art „Erwartungsfeld“für zukünftige mögliche energetisch-materielle Manifestationen. Die Zukunft ist dabei wesentlich offen, was heißen soll, dass sie nicht ganz beliebig offen,sondern durch gewisse allgemeine Bedingungen eingeengt ist, die mit den sogenannten Erhaltungssätzen zusammenhängen und aus Symmetrie-Eigenschaften der Dynamik resultieren. Hierzu gehört insbesondere die Erhaltung der Energie, welche die „Masse“, nach Einstein, als eine konzentrierte Form der Energie einschließt, doch auch die Erhaltung der elektrischen Ladung und anderer. Sie sorgt dafür, dass bei Mittlung im Großen überhaupt Eigenschaften, die Kenngrößen der klassischen Physik, übrig bleiben und greifbar werden.

(NaT) p. 53: "The existence of consciousness is both one of the most familar and one of the most astounding things about the world. No conception of the natural order that does not reveal it as something to be expected can aspire even to the outline of completeness. And if physical science, whatever it may have to say about the origin of life, leaves us necessarily in the dark about consciousness, that shows that it cannot provide the basic form of intelligibility for this world. There must be a very different way in which things as they are make sense, and that includes the way the physical world is, since the problem cannot be quarantined in the mind".

Regarding the special role of mathematics we quote

(DüH) p. 100: „Die neu empfohlene Vorstellung: Zuerst „Beziehung“ (relationship), dann Dinge (lat. „res“, e.g. part of the notion"reality") erscheint uns zunächst grotesk, obwohl es eigentlich unsere Grunderfahrung widerspiegelt: Zuerst „erleben“ und dann das „begriffliche Ding“,was wir begreifen. … Im Gegensatz zu unserer Umgangssprache, die auf Fragen: Was ist? aufbaut und zur Klärung Begriffe und Substantive einführt, ist die Sprache der Mathematik für Fragen nach: Wie? besser geeignet. So etwa: Wie wirkt, wie passiert, wie verbindet etc.? Die Mathematik hat deshalb keine Schwierigkeiten „frei-schwebende“ Beziehungen auszudrücken. Sie führt Symbole ein, die Prozesse charakterisieren.

Regarding "gaining knowledge" in quantum physics in dialogue with artist-scientists based on a vision (see also (UnA)) we quote

(DüH) p. 105: „… wir (W. Heisenberg in dialogue with H.-P. Dürr) haben im Hintergrund eine innerliche Verbundenheit die wir in der Quantenphysik Potentialität nennen. Sie charakterisiert Kann-Möglichkeiten, die erlauben, sich vielfältig, doch nicht beliebig, in der Realität zu manifestieren."

Regarding "cooperation" based on the paradigm of the living we quote

(DüH) p. 126: "Darwin (`s) …“Survival of the fittest“ … entspricht einer kohärenten, gleichschwingenden Überlagerung verschiedener Wahrscheinlichkeitswellen, die einer kooperativen Integration entsprechen und dadurch - … - eine Verstärkungerfahren, wobei die Wellenhöhe ein Maß für die Wahrscheinlichkeit der Realisierung bestimmter für uns begreifbarer energetisch-materieller Erscheinungsformen festlegt.

An indication for the need and validity of a fundamental ontology results for M. Heidegger from the crisis of sciences working on science specific conceptual foundations. His proposed task of a fundamental ontology is a not to be constructed deductively genealogy of the different possible ways of being, (LuA) p. 15. We quote from

(HeM) p. 10: „All ontology, no matter how rich and tightly knit a system of categories it has at its disposal, remains fundamentally blind and perverts its innermost intent if it has not previously clarified the meaning of being sufficiently and grasped this clarification as its fundamental task.“


Braun K., A validation approach of the proposed gravity and quantum field model

                                             June 15, 2021 

             A (geometrical) Hilbert space based quantum gravity model
                                               Dec 2, 2020

                                                included in


Braun K., 3D-NSE, YME, GUT solutions

                                              July 31, 2019

Further supporting data in a broader context


the complex Lorentz and Poincare groups

    Streater R. F., Wightman A. S., "PCT, spin & statistics, and all that", p. 9 ff.


Arntzenius F., The CPT Theorem, ex Philosophy of Time


Barbour J. B., Time and complex numbers in canonical quantum gravity


Barbour J., Scale invariant gravity, particle dynamics


Courant conjecture, spherical waves, two and four variables case


Dicke R. H., Graviation without a Principle of Equivalence


Dirac P. A. M., A new basis for cosmology


Einstein A., Ritz W., On the present status of the radiation problem, (1909)


Einstein A., Ether and the theory of relativity


Einstein A., The World as I See it


Heidegger M., Being and Time, interpretation of time


Heidegger M., Being and Time, paragraph 1, temporality


Heidegger M., Being and Time, part I, chapter 1


Nag S., Sullivan D., Teichmüller theory and the universal period mapping via quantum calculus and the H(1-2) space on the circle


Nagel Th., What does it all mean


Nagel Th., The Last Word


Roberts J. T., Leibniz on Force and absolute Motion


Scholz E., The Concept of Manifolds, 1850-1950


Scholz E., Hermann Weyl s Purely Infinitesimal Geometry


Schroedinger E., Mind and Matter


Schroedinger E., My view of the world, seek for the road


Schrödinger E., Die Erfuellbarkeit der Relativitaetsforderung in der klassischen Mechanik


Schrödinger E., About Heisenberg Uncertainty Relation


Sciama D. W., On the origin of inertia


Smolin L., Einstein s unfinished revolution, I, 5


Werner P., Self-Adjoint Extensions of the Lapalce Operator with Respect to Electric and Magnetic Boundary Conditions


(ArF) Arntzenius F., The CPT Theorem, in Callender C., The Oxford Handbook of Philosophy of Time, Oxford University Press, Oxford, 2013

(BiJ) Binney J. J., Dowrick N. J., Fisher A.J., Newman M. E. J., The Theory of Critical Phenomena, Oxford Science Publications, Clarence Press, Oxford, 1992

(BiN) Bingham N. H., Szegö’s theroem and its probabilistic descendants, Probability Surveys, Vol. 9 (2021), 287-324

(BoD) Bohm D., Wholeness and the Implicate Order, Routledge & Kegan Paul, London, NewYork, 2005

(BrP) Bradshaw P., An Introduction to Turbulence and its Measurement, Pergamon Press, Oxford, New York, Toronto, Sydney, Braunschweig, 1971

(CaF) Cap F., Lehrbuch der Plasmaphysik und Magnetohydrodynamik, Springer-Verlag, Wien, New York, 1994

(DüH) Dürr H.-P., Geist, Kosmos und Physik, Crotona Verlag, Amerang, 2016

(FrU) Frisch U., Turbulence, CambridgeUniversity Press, Cambridge, 1995

(FoC) Foias C., Manley O., Rosa R., Teman R., Navier-Stokes Equations and Turbulence, Cambridge University Press, Cambridge, 2001

(GiY) Giga Y., Weak and strong solutions of the Navier-Stokes initial value problem, Publ. RIMS, Kyoto Univ. 19 (1983) 887-910

(HeM) Heidegger M., Being and Time, State University of New York Press, Albany, 2010

(HeW) Heisenberg W., Introduction to theUnified Field Theory of Elementary Particles, Interscience, London, 1966

(HoE) Hopf E., Ergodentheorie, Springer-Verlag, Berlin, Heidelberg,New York, 1970

(LiI) LIfanov I. K., Poltavskii L. N., Vainikko G. M., Hypersingular Integral Equations and Their Applications, Chapman & Hall/CRC, Boca Raton, London, New York, Washington, D. C., 2004

(LiI1) Lifanov I. K., Nenashaev A. S., Generalized Functions on Hilbert Spaces, Singular Integral Equations, and Problems of Aerodynamics and Electrodynamics, Differential Equations, Vol. 43, No. 6, pp. 862-872, 2007

(LuA) Luckner A., Martin Heidegger: „Sein und Zeit“,Schöningh, Paderborn, 2001

(MaW) Macke W., Quanten und Relativität, Akademische Verlagsgesellschaft Geest & Portig K.-G., Leipzig, 1965

(NaE) Nagel E., Newman J. R., Gödel's Proof, New York University Press, New York, 1958

(NaS) Nag S., Sullivan D., Teichmüller theory and the universal period mapping via quantum calculus and the H(1/2) space on the circle, Osaka J. Math., 32 (1995), 1-3

(NaT) Nagel Th., Mind & Cosmos, Why the Materialist Neo-Darwinian Conception of Nature is Almost Certainly False, Oxford University Press, Oxford, 2012

(SeA) Sergeev A. G., Quantization of the Sobolev Space of Half-Differentiable Functions, II, Russian J. Math. Physics, Vol. 26, No. 3, 2019, pp. 401-405

(SeE) Seneta E., Regularly Varying Functions, Springer-Verlag,Berlin, Heidelberg, New York, 1976

(SoP) Sobolevskii P. E., On non-stationary equations of hydrodynamics for viscous fluid. Dokl. Akad. Nauk SSSR 128 (1959) 45-48 (in Russian)

(TsV) Tsytovich V., Theory of Turbulent Plasma, Consultants Bureau, New York, 1977

(UnA) Unzicker A., The mathematical reality, Why Space andTime are an Illusion

(UnA1) Unzicker A., Einstein's Lost Key - How We Overlooked the Best Idea of the 20th Century

(UnA2) Unzicker A., Bankrupting Physics How Today's Top Scientists are Gambling Away Their Credibility

(WeH) Weyl H., Philosophy of Mathematics and Natural Science, Princeton University Press, Princeton and Oxford, 2009


The mathematical reality. Why Space and Time are an Illusion by Alexander Unzicker

Einstein's Lost Key - How We Overlooked the Best Idea of the 20th Century by Alexander Unzicker

Bankrupting Physics How Today's Top Scientists are Gambling Away Their Credibility by Alexander Unzicker

The Higgs Fake. How Particle Physics Fooled the Nobel Committee by Alexander Unzicker