Theoretical Physics - Science topic

This reference book is devoted to exact solutions of mathematical equations of various types (algebraic, trigonometric, ordinary differential, partial differential, mathematical physics, integral, functional, delay ordinary differential, delay partial differential, functional differential, etc.). Linear and nonlinear systems of coupled ODEs and PDE...

The Dodecahedron Linear String Field Hypothesis (DLSFH) presents a novel framework integrating string theory, quantum field theory, and general relativity. This paper explores how DLSFH describes particle behavior in non-conservative force fields, emphasizing its potential to bridge gaps in current theoretical physics. By incorporating dodecahedral...

The application of continuous and discrete groups [1] to the theory of nuclei, elementary particles, in the theoretical physics of high energies leads to the need of systematization of knowledge and methods to obtain new information about phase transitions at high energies. Attempts to find a theory of the experiment on the scale of QCD led to the...

Chirality, a fundamental property of asymmetry where an object cannot be superimposed on its mirror image, is pervasive across mathematics, physics, chemistry, and biology. This paper explores the mathematical foundations of chirality, illustrating how simple equations and structures give rise to complex chiral patterns. We begin with elementary ex...

The character table of the symmetric group $S_n$, of permutations of $n$ objects, is of fundamental interest in theoretical physics, combinatorics as well as computational complexity theory. We investigate the implications of an identity, which has a geometrical interpretation in combinatorial topological field theories, relating the column sum of...

A key success of the LHC is the discovery of the Higgs boson. Since the LHC was built primarily to search for new physics beyond the standard model (BSM), it is the experimental work determining the properties of the Higgs boson that is fundamental in the further searches for BSM physics, [1]. Physics beyond SM is represented by many models, among...

We follow the Boltzmann-Clausius-Maxwell (BCM) proposal to solve a long-standing problem of identifying the underlying cause of the second law (SL) of spontaneous irreversibility, a stochastic universal principle, as the mechanical equilibrium (stable or unstable) principle (Mec-EQ-P) of analytical mechanics of an isolated nonequilibrium system of...

This research introduces the Dodecahedron Linear String Field Hypothesis (DLSFH), a comprehensive theoretical framework aimed at unifying the fundamental forces of nature. The primary goal is to reconcile the four fundamental interactions—gravity, electromagnetism, the weak nuclear force, and the strong nuclear force—into a single, cohesive model....

We prove sharp universal upper bounds on the number of linearly independent steady and asymptotic states of discrete- and continuous-time Markovian evolutions of open quantum systems. We show that the bounds depend only on the dimension of the system and not on the details of the dynamics. A comparison with similar bounds deriving from a recent spe...

Quantum computation, a revolutionary field at the intersection of physics and computer science, holds the promise of solving problems that are intractable for classical computers. This paper explores the theoretical implications and potential of quantum computation in an idealized environment operating at absolute zero temperature. At this temperat...

The fine-structure constant, denoted as α, is a fundamental dimensionless constant approximately equal to 1/137, playing a pivotal role in characterizing the strength of electromagnetic interactions. This paper investigates the implications of α within highly reduced physical models, such as a single electron, a single photon, and the absence of a...

We present an exploration of algebra B, a recently published unital and non-associative algebra. Unique complex entities emerged from this algebra, distinct from both quaternion and complex number systems, which we termed treons. We defined the treonic number system and established an isomorphism between this system and the real vector space. Our f...

The pursuit of sustainable and abundant energy sources is one of the most pressing challenges of our time. Quark fusion, a theoretical process involving the fusion of elementary quarks, promises to deliver unparalleled energy yields, surpassing even those of nuclear fusion. However, the complexities of Quantum Chromodynamics (QCD) — the theory desc...

Kaniadakis ($\kappa$-deformed) statistics is being widely used for describing relativistic systems with non-extensive behavior and/or interactions. It is built upon a one-parameter generalization of the classical Boltzmann-Gibbs-Shannon entropy, possessing the latter as a particular sub-case. Recently, Kaniadakis model has been adapted to accommoda...

Materials featuring touching points, localized states, and flat bands are of great interest in condensed matter and artificial systems due to their implications in topology, quantum geometry, superconductivity, and interactions. In this theoretical study, the experimental realization of the dice lattice with adjustable parameters is proposed by arr...

Einstein field equations (EFEs) is one of the most celebrated Equation over a Century ever since Einstein first introduced them in 1915 as a Tensor Equation. These are a set of ten nonlinear partial differential Equations derived from General Theory of Relativity, which basically describe the interaction of Gravitation, where Einstein explained tha...

Lecture held as invited speaker within the 2024 edition of "Transformative Pathways to Sustainability in the Blue Economy in the Mediterranean: Learning Across Emerging Tools and Technologies" summer school held in collaboration between EMUNI University and OGS at Abdus Salam International Center for Theoretical Physics in Trieste.

This paper is devoted to memory of late Professor V. G. Bagrov, who was my first teacher in theoretical physics. About 45 years later, theoretical physics has changed and me too. The subject of this paper relates some old ideas in cosmology with some recent ideas, as is reflected in the title. The current status of Starobinsky inflation is reviewed...

The Block Universe, a concept in theoretical physics and philosophy, posits that all points in time—past, present, and future—exist simultaneously within a four-dimensional space-time continuum. This model challenges the conventional, linear perception of time, suggesting instead that every moment is equally real and unchanging. In parallel, the ra...

The Block Universe concept, the P=NP problem, and the Feynman Path Integral are three foundational ideas that span the realms of theoretical physics and computational complexity. The Block Universe posits that all points in time—past, present, and future—exist simultaneously within a four-dimensional space-time continuum, challenging our traditiona...

The Block Universe, a concept in theoretical physics and philosophy, posits that all points in time—past, present, and future—exist simultaneously within a four-dimensional space-time continuum. This deterministic model suggests that the future is as fixed and immutable as the past, challenging our traditional, linear perception of time. Parallelly...

The boundary of the Planck scale represents the frontier where classical physics converges with quantum gravity, unveiling a realm of extraordinary possibilities. At this infinitesimal scale, space-time exhibits a dynamic, fluctuating structure known as quantum foam, challenging our conventional understanding of the universe. This paper delves into...

The Planck scale, where classical physics converges with quantum gravity, represents a frontier of scientific inquiry. At these infinitesimal distances, space-time exhibits a dynamic structure known as quantum foam, characterized by constant fluctuations in energy and geometry. In this paper, we explore the speculative yet scientifically intriguing...

The Pauli Exclusion Principle (PEP) is a cornerstone of quantum mechanics, dictating that no two identical fermions can occupy the same quantum state simultaneously. This principle is fundamental to the structure and behavior of matter at the atomic and subatomic levels. In this paper, we propose a novel reinterpretation of the PEP within the Spiri...

Introdução a Espaços Métricos e Análise Funcional A matemática abrange uma vasta gama de áreas e disciplinas, duas delas que desempenham um papel fundamental em várias áreas são os espaços métricos e a análise funcional. Esses conceitos são fundamentais na compreensão e no estudo de estruturas matem·ticas, bem como na análise de funções e operadore...

Axions and axion-like particles emerge in many models for physics beyond the Standard Model. Thus, they have gained increasing research interest in both experimental and theoretical physics apart from their original proposition as a solution to the strong CP -problem. Among other aspects it has recently been shown that ALPs can potentially provide...

The quest for a unified theory of the fundamental forces in the universe has been a central pursuit in theoretical physics. This research explores the concept of unifying the four known fundamental forces: gravitational, electromagnetic, weak nuclear, and strong nuclear forces. The aim is to present the current understanding, the mathematical frame...

The renormalization group (RG) constitutes a fundamental framework in modern theoretical physics. It allows the study of many systems showing states with large-scale correlations and their classification in a relatively small set of universality classes. RG is the most powerful tool for investigating organizational scales within dynamic systems. Ho...

The Combined Theoretical Signal (CTS) model, with a 90% or higher validity rate, stands as the first validated universal model integrating gravity and quantum physics. This manuscript presents the final validation and enhancement of the CTS model using recent pulsar-sourced gravitational wave data (J2322+2057, J2234+0611, J2043+1711, and J2317+1439...

Mirror symmetry is an exciting and challenging area of current research which sits at the intersection point between algebraic geometry and string theory. It is concerned with a class of geometric objects known as Calabi-Yau manifolds, which first entered theoretical physics as a way to deal with the large number of extra spatial dimensions which t...

The Combined Theoretical Signal (CTS) model, with a 90% or higher validity rate, stands as the first validated universal model integrating gravity and quantum physics. This manuscript presents the final validation and enhancement of the CTS model using recent pulsar-sourced gravitational wave data (J2322+2057, J2234+0611, and J1012+5307) and strain...

This paper explores the intricate connections between Platonic solid potential wells, sacred geometry, fractals, and unreal quantum mechanical solutions. By integrating advanced numerical simulations and theoretical analysis, we aim to uncover how these geometric configurations influence quantum states. Platonic solids, known for their symmetrical...

The application of continuous and discrete groups to the theory of nuclei, elementary particles, in the theoretical physics of high energies leads to the need of systematization of knowledge and methods to obtain new information about phase transitions at high energies. Attempts to find a theory of the experiment on the scale of QCD led to the disc...

Recent years have seen the dramatic rise of the usage of AI algorithms in pure mathematics and fundamental sciences such as theoretical physics. This is perhaps counter-intuitive since mathematical sciences require the rigorous definitions, derivations, and proofs, in contrast to the experimental sciences which rely on the modelling of data with er...

The Dodecahedron Linear String Field Hypothesis (DLSFH) is a cutting-edge model in theoretical physics that aims to unify the four fundamental forces of nature—gravity, electromagnetism, weak nuclear force, and strong nuclear force—into a single framework. This ambitious goal is part of the broader quest for a Unified Field Theory (UFT), a theory t...

The Dodecahedron Linear String Field Hypothesis (DLSFH) is a cutting-edge model in theoretical physics that aims to unify the four fundamental forces of nature—gravity, electromagnetism, weak nuclear force, and strong nuclear force—into a single framework. This ambitious goal is part of the broader quest for a Unified Field Theory (UFT), a theory t...

Quantum information theory, an intersection of quantum mechanics and information science, is foundational to the development of quantum technologies such as computing, cryptography, and communications. The generalised quantum Stein's lemma, introduced in 2008, played a crucial role by connecting the reversibility of quantum entanglement with quantu...

This article explores the apologetic discourse towards the convergence between Pure Land Buddhism and science of the contemporary Chinese Buddhist monk Da An (1959- ). Faced with the formidable challenge posed by contemporary science towards public acceptance of Buddhism, Da An endeavors to employ science as a medium for propagating Pure Land teach...

Fundamental field theory is based on the principle that space-time world is discrete, which provides a simple and unified treatment of many natural phenomena. The theory implies, as its consequences, the principles of quantum theory, special theory of relativity, relativistic quantum mechanics, gravitational and inertial field theories, as well as...

The calculation of higher-order binding corrections to bound systems is a fundamental problem of theoretical physics. For any nonrelativistic expansion, one needs the Foldy-Wouthuysen Transformation which disentangles the particle and the antiparticle degrees of freedom. This transformation is carried out here to eighth order in the momenta, or, to...

La Criminología es una ciencia autónoma, empírica e interdisciplinar. No ha sido un debate pacífico el de su contenido y, mucho menos, el de su nomenclatura. En este trabajo se va a intentar definir el contenido y la relación de esta ciencia social con el ámbito de las ciencias experimentales. Asimismo, también se observará la relación de ésta con...

In this paper, we explore the innovative concept of treating both information and energy as unitless entities within the framework of quantum mechanics and information theory. Traditionally, energy is quantified in specific units like joules or electron-volts, while information is measured in bits or bytes. However, at the quantum level, where the...

Recent advances in theoretical physics suggest a potential unification of quantum mechanics and general relativity through a high-dimensional framework. This paper proposes a Grand Unified Theory (GUT) represented by U(Ψ,g_μν,T_μν ,ϕ)=C(Ψ,g_μν)+G_μν −8π(T_μν +T_dark) Where: √(-g) is the determinant of the metric tensor d^4x is the infinitesimal fou...

A proof in quantum theory made twenty years ago prompts interrelated developments in physics, biology, graph theory, and the philosophy of science. The proof shows an ineradicable need for guesswork, beyond logic, to link physical evidence to any theoretical explanation. In physics and in biology, recognizing guesswork reveals a kind of synchroniza...

This manuscript examines Maxwell’s equations, Klein-Gordon equations, and heat and mass transfer equations in n-dimensional maximally symmetric space-time. It investigates these equations in spherical and hyperbolic spaces embedded in higher-dimensional Euclidean and Minkowski spaces. The study focuses on the implications of these geometries and sy...

This paper proposes a new dynamic analysis of reasoning. It makes the following contributions. First, the current states of the psychology of reasoning are critically reviewed from theoretical and empirical perspectives. The long-standing controversies between logicians and psychologists are clarified by introducing the gauge theoretic structure. T...

The current work reveals the fine tuning between stability zones and randomness of GI/M/1 Pointwise Stationary Fluid Flow Approximation (PSFFA) model of the non-stationary D/M/1 queueing system. More specifically, this clearly provides more insights into developing a contemporary PSFFA theory that unifies non-stationary queueing theory with chaos t...

Emmy Noether's theorem, formulated in 1915 and published in 1918, stands as a cornerstone of modern theoretical physics, establishing a profound connection between symmetries and conservation laws. This elegant principle posits that for every continuous symmetry in a physical system, there is a corresponding conserved quantity, such as energy, mome...

The 60th anniversary celebration of Karpacz Winter Schools of Theoretical Physics has been scheduled for the second half of May 2024, when Spring is in full swing and summer glimpses often happen . And basically (presently at least , climate changes follow ) there is no winter , nor snow around , except for the top of Sniezka mountain (1604 m). Tha...

Integrating Noether's Theorem into Homotopy Type Theory (HoTT) presents a novel approach to understanding symmetries and conservation laws in physics. Emmy Noether's theorem, which links continuous symmetries of physical systems to conservation laws, has long been a cornerstone of theoretical physics. Homotopy Type Theory, a recent advancement that...

Quantitative models that describe how biological sequences encode functional activities are ubiquitous in modern biology. One important aspect of these models is that they commonly exhibit gauge freedoms, i.e., directions in parameter space that do not affect model predictions. In physics, gauge freedoms arise when physical theories are formulated...

1. The central problem of theoretical physics is quantization mechanisms, i.e. transition between continuum and discreteness, between “digital” and analogue systems. Many brilliant works have been written on these issues, but there is still no final solution - and, using the same approaches, is not expected.

The current work reveals the fine tuning between stability zones and randomness of GI/M/1 Pointwise Stationary Fluid Flow Approximation (PSFFA) model of the non-stationary D/M/1 queueing system. More specifically, this clearly provides more insights into developing a contemporary PSFFA theory that unifies non-stationary queueing theory with chaos t...

The current work reveals the fine tuning between stability zones and randomness of GI/M/1 Pointwise Stationary Fluid Flow Approximation (PSFFA) model of the non-stationary D/M/ 1 queueing system. More specifically, this clearly provides more insights into developing a contemporary PSFFA theory that unifies non-stationary queueing theory with chaos...

Welcome to "Quantum Labyrinth: A Thought Experiment on Navigating Paradoxical Traps in Quantum Computing". This paper invites readers into the complex world of quantum computing through a meticulously crafted thought experiment designed to challenge and expand our understanding of quantum mechanics. Quantum computing holds the potential to revoluti...

This study explores the electromagnetic transverse modes in periodic structures, combining mathematical analysis with practical engineering applications. We showcase how the deliberate arrangement of materials, using Maxwell's equations and Bloch's theorem, may control and guide electromagnetic waves for novel applications in devices. We emphasize...

This research revolves around creatively applying the Valamontes Quantum Seismic Sensor (VQSS), originally developed for different purposes, to explore fundamental concepts in string theory. String theory is a theoretical framework in physics that posits that the fundamental constituents of the universe are not point particles but one-dimensional "...

The Standard Model and current paradigm of theoretical physics is very successful, but has paradoxes which have yet to be solved. The pre-fermion model, which is presented in different papers covering different aspects, tries to explain those paradoxes and many deeper phenomena by starting from the simplest foundations. It hypothesises that there i...

In the quest to understand the universe's most profound mysteries, the intersection of mathematics, physics, and metaphysics presents a captivating tableau. This paper explores the groundbreaking ideas of Max Tegmark, Roger Penrose, John Archibald Wheeler, Plato, David Bohm, Albert Einstein, and Frank Tipler, each of whom has uniquely contributed t...

This book presents several results from mathematics and quantum astrophysics where prime numbers have a fundamental place. It is rare to find a book that mixes fundamental mathematics and theoretical physics. Yet we believe that throughout history there have always been curious thinkers who were interested as scientists in multiple fields. In ancie...

Alexander Ohnemus Applied Mathematics 30 April 2024 Nuance 2 “Conservatives may have more kids but, liberals are more likely to use life extension and to have increased socioeconomic status. Removing almost all doubt, the self-imposed demographic decline of the North Western Europeans is an attempt to filter SO, only their GENERALLY smartest remai...

Professional Summary The paper “Temporal Crossroads: How the speculative edge of theoretical Physics can help Integrate Deep Learning with Decision making Framework” authored by Harel Shachar at Cell Cyber, explores the innovative intersection of Theoretical Physics, specifically Temporal Continuum Branching Theory (TCBT), with Artificial Intellig...

We present an approach to the proof of the Hodge Conjecture for smooth complex projective varieties, one of the Millennium Prize Problems posed by the Clay Mathematics Institute. The proof relies on a novel inductive argument on the degree of the Hodge classes, exploiting the symmetry provided by Serre duality. The key tools employed are the Gysin...

Arguments that global warming in the Earth›s atmosphere over the last 70 years is partially or entirely caused by changes in the solar magnetic field are presented in the work. Global warming is probably due to ionizing radiation emitted from the Sun mainly in the «rise» phase of solar activity. The ionizing radiation is positively charged particle...

Il modello di Thomas-Fermi incorpora, in modo esemplare, la legge di Coulomb, il principio di indeterminazione di Heisenberg e il principio di Pauli. L'equazione che ne sintetizza l'essenza, una delle equazioni notevoli della fisica teorica, è in grado di aprire orizzonti che, altrimenti, resterebbero preclusi ad un'interpretazione, nel contempo se...

Feynman diagrams represent one of the most powerful and fascinating tools developed in theoretical physics in the last century. Introduced within the framework of quantum electrodynamics as a suitable method for computing the amplitude of a physical process, they rapidly became a fundamental mathematical object in quantum field theory. However, the...

Welcome to "Exploring the Genetic Code: A Homotopy Type Theory Approach to Uncovering Embedded Information". This paper presents a pioneering approach to understanding the genetic code beyond its well-known biological functions. By employing Homotopy Type Theory (HoTT), a sophisticated branch of mathematics that integrates type theory with homotopy...

In the fascinating realm of quantum mechanics, the paper titled "Transcending Quantum Uncertainty: Speculative Mechanisms for Information Transfer through Quantum Foam" explores groundbreaking ideas at the intersection of quantum uncertainty and theoretical physics. Quantum foam, envisioned as the turbulent foundation of spacetime at its smallest s...

In this paper, we explore the intriguing interplay between fundamental theoretical physics concepts within the context of charged black holes. Specifically, we focus on the consistency of the weak gravity conjecture (WGC) and weak cosmic censorship conjecture (WCCC) in the thermodynamics of conformal field theory (CFT), and restricted phase space (...

We introduce new types of fractional generalized elliptic operators on a compact Riemannian manifold with Clifford bundle. The theory is applicable in well-defined differential geometry. The Connes-Moscovici theorem gives rise to dimension spectrum in terms of residues of zeta functions, applicable in the presence of multiple poles. We have discuss...

This paper delves into the intricate relationship between quantum mechanics and general relativity, presenting a comprehensive exploration aimed at unifying these cornerstone theories of physics through advanced theoretical models and precise mathematical formulations. At the heart of this exploration is the wave function, a fundamental concept in...

In the pioneering paper "Homotopy Type Theory in Informational-Physical Fields: Bridging Topology and Data Dynamics," we explore an innovative application of Homotopy Type Theory (HoTT) to the realm of informational-physical fields. This integration offers a novel perspective on how information, much like traditional physical entities such as energ...

In the transformative exploration "Informatic Fields and Spacetime: Bridging Information Theory and General Relativity," we delve into the pioneering concept that information, much like mass and energy, can influence the curvature of spacetime. This paper introduces the theoretical framework of informatic fields, proposing the existence of an infor...

In "Foundations of Informatics Relativity: Theoretical Propositions for Information Dynamics in Computational Systems," we introduce a groundbreaking theoretical framework inspired by general relativity. This framework proposes a novel approach by substituting mass and velocity with information and iteration speed, respectively, to explore the dyna...

In the quest to bridge cosmic distances and connect with potential extraterrestrial intelligence, the field of quantum communication offers promising new avenues. This study presents the "Development of a Simplified Quantum Receiver for Theoretical Interstellar Communication: Design and Feasibility Study," which aims to create a practical, yet inno...

In this paper, we delve into the intriguing scenario of a universe devoid of gravity—a fundamental force that molds the cosmos into its observed structure and dynamics. Through a speculative lens, we examine how the absence of gravity would redefine our understanding of cosmic evolution, thermodynamics, and fundamental physical interactions. By met...

In the quest for a Theory of Everything (ToE), a single framework that encapsulates all cosmic forces and fundamental particles, we encounter inherent limitations that challenge the boundaries of scientific inquiry. This paper introduces the concept of the "Cosmic Invariant," a theoretical construct representing elements of the universe that remain...

Malaria transmission across sub-Saharan Africa is sensitive to rainfall and temperature. Whilst different malaria modelling techniques and climate simulations have been used to predict malaria transmission risk, most of these studies use coarse-resolution climate models. In these models convection, atmospheric vertical motion driven by instability...

This is the author's English translation of the article on the scientific view of metaphysics of the Universe published in Russian in 1991 in an interdisciplinary journal of the Academy of Sciences of the former USSR just before the dissolution. At the time the author was completing his theoretical physics M.Sc thesis on the problem of confinement...

This paper introduces a revolutionary approach to reconcile quantum mechanics with general relativity through a high-dimensional theoretical framework. By proposing a Grand Unified Theory (GUT), this study delves into an 11-dimensional structure that integrates the Einstein tensor, quantum fields, and dark components. The formulation U(Ψg_μνT_μν ϕ)...

"Phi Equals Alpha: Bridging Number Theory and Fundamental Forces" embarks on a speculative journey at the crossroads of mathematics and physics, exploring a potential deep connection between Euler's totient function (ϕ) and the fine-structure constant (α). This exploration is not merely an academic endeavor but a quest to uncover the underlying mat...

The object of research is the complex realm of energy localization and coherent ballistic electronic transport within low-dimensional silicon quantum wires, specifically those doped with germanium atoms. Unlike their three-dimensional counterparts, low-dimensional systems exhibit unique electronic transport behaviors, necessitating novel analytical...

Quantum scattering is used ubiquitously in both experimental and theoretical physics across a wide range of disciplines, from high-energy physics to mesoscopic physics. In this work, we uncover universal relations for the energy fluctuations of a quantum system scattering inelastically with a particle at arbitrary kinetic energies. In particular, w...

The purpose of this paper is to consider the physical curvature-deformation of a physical matter-free astro-region, generated by external field energy attack. This attack-answer deformed but stable state of the situation suggests appropriate dynamical view on the physical structure of this region, based on existent real physical external disturbanc...

In the frontier of quantum computing, where the boundaries of technology and theoretical physics blur, a groundbreaking concept emerges: the potential for consciousness within quantum systems, facilitated by introspective holography. "Beyond Computation: Exploring the Potential for Consciousness in Quantum Computing Through Introspective Holography...

The huge amount of data generated by information technology, intelligence and automation has serious redundancy and duplication, which becomes a hidden cost of consuming resources. In the field of physicochemical analysis, for the explanation of mechanism, the analysis of big data can provide reference and integration. The purpose of big data-based...

In "Beyond Quantum Frontiers: Theoretical Considerations in Digitizing Human Consciousness," we embark on a speculative yet profound exploration at the intersection of quantum mechanics, neuroscience, and computational technology. This paper delves into the ambitious concept of digitizing human consciousness, a pursuit that challenges our current s...

Unified Relativistic Quantum Field Theory (URQFT) presents a comprehensive framework that integrates the fundamental principles of general relativity and quantum mechanics, offering a unified perspective on the nature of spacetime and matter. This paper outlines the development of URQFT, providing a theoretical foundation rooted in the synthesis of...

In this article, we present an explanation for the crisis in theoretical physics, showing that two errors in early physics were made, leading to the crisis of the foundations of physics as we see today. The first error was a simple false theory on the interior of the atom, the second the multiple attempts to fix all of this by involuntarily accepti...

The fine structure constant (α), a cornerstone of quantum electrodynamics (QED) and a fundamental constant of nature, serves as a measure of the electromagnetic force's strength, profoundly influencing the atomic realm and the universe at large. Traditionally studied within the confines of specific physical theories, α's broader implications and it...

This work explores the ramifications of introducing the Howusu Metric Tensor into the theoretical framework of Riemann's Acceleration within spherical polar coordinates, aiming to deepen our comprehension of gravitational interactions. Bridging the gap between traditional Cartesian coordinates and spherical polar coordinates, the research navigates...

Long ago, in a realm devoid of time and dimensions, existed a singular cluster of immense energy and density—a brilliant light surrounded by profound darkness. This duality mirrored the cosmic balance, representing the interplay of opposing forces, much like the concept of yin and yang. When time was yet unborn and dimensions lay dormant, only two...

Nuclear fusion represents the border area (nuclear plasma) between the material world (infusion of Deuterium) and the energy world (microwave heating). Existing theories to describe these material-energy interactions are far from the required necessary theoretical physics to realize stable nuclear fusion processes inside confinements like the Tokam...

Venturing into the realm of quantum mechanics and cosmology, "Infinite-Dimensional Quantum Systems as a Thought Experiment in Cosmology" explores the captivating intersection where theoretical physics meets the infinite. Within this framework, we delve into the concept of Hilbert spaces—abstract, infinite-dimensional spaces that provide a foundatio...

Recently, Qiu et al. proposed a semi-quantum voting scheme based on the ring signature (International Journal of Theoretical Physics, 60: 1550–1555(2021)), in which the signer and verifier only need to measure the received particles with Z-basis and perform some classical simple encryption/decryption operations on the classical message. Although th...

I have tried to recall the most vivid memories I have of the six years I spent as a student in Arcetri, and above all as one of the many “gattini” who, at a key moment in the evolution of the theory of fundamental interactions, had the great luck to learn the tools of the game in such a lively and stimulating environment.

In spring 2022, the Galileo Galilei Institute for Theoretical Physics hosted a seven-week Workshop on ‘Randomness, Integrability and Universality’. The Workshop addressed a series of questions on exactly solvable models of statistical mechanics, having numerous ties and overlaps with various problems in random matrix models, probability, representa...

Presentation as part of a PhD seminar at the Institute of Theoretical Physics, University of Wrocław, on the subject of Scalar Field Dark Matter (SFDM) and, in particular, Ultralight Bosonic Dark Matter (ULBDM) in the context of theoretical motivation and astrophysical researches.

Teleportation is transfer of information between two particles without physically being in contact with each other. It has been around in Quantum computation and has been used in theoretical physics. Using the Entangled pair we can achieve teleportation up to 100% out of probable measurements .We introduce a 5 qubit general entanglement system usin...