The GOD Entity

interpreted as a rotational shearing velocity along the z axis of a space-time quantum cube. The electric field vector is still along the y direction, and its magnitude is determined by the difference between the EED values of the ...

The GOD Entity

Theoretical physics has reached an impasse that many feel is a dead end. As the odds of finding evidence for supersymmetry starts to fade, “new” theories have emerged such as “The Multiverse”, “Extra Dimensions”, and “Dimensional Transmutation”. These theories attempt to explain the inexplicable yet at the same time fail to explain the explainable. Many physicists are left frustrated and wondering aloud… How could we have travelled so far down the wrong path? “Any intelligent fool can make things bigger and more complex. It takes a touch of genius - and a lot of courage to move in the opposite direction.” ~ Albert Einstein Engineers know that the right answer is usually a simple one. As Einstein would put it, “The grand aim of all science is to cover the greatest number of empirical facts by logical deduction from the smallest number of hypotheses or axioms.” Gordon’s theory of everything starts with only two postulates; the massless bosons called “Gordon Omnipresent Dots” or “GOD entities” and the E0 energy associated with their initial alignment. These primordial postulates are the only building blocks of a model that explains the inevitable course of events that created our universe. The mathematics created within this process corrects the postulates used to develop the theories of relativity and quantum mechanics which can finally be united and subsequently applied to the infinitesimally small and the infinitely large. We currently use parameters such as distance, time, straight lines, velocity, electric charge, energy fields, and mass. Gordon’s theory of everything begins at a time when none of these parameters existed (prior to the Big Bang). It takes nothing for granted as a predestined process unfolds creating these parameters as they come into existence defined by the evolving mathematics. The Gordon model reveals that energy exists in three separate Gordon energy states described by “The GOD equation”. The interaction between these energy states result in the formation of energy fi elds and the creation of all forces. Most importantly, the structure of space-time from the previously unrecognized G0 energy state provides the solid foundation upon which we are able to build a new understanding of everything in the universe. The simplicity and elegance of Gordon’s theory of everything will astonish everyone as everything falls into place. The purpose of this book is to put the field of physics on a theoretically sound foundation. The structures of the first few fundamental particles and the energy fields they generate are just the beginning. You will have the opportunity to make major contributions. Starting where this book leaves off at the up quark and electron, the race is on to find the internal structure of a neutron and all the particles of the standard model. Don’t be left behind…Be among the first to read Scott S Gordon’s, “The GOD Entity: Gordon’s Theory of Everything”

Semiconductor Quantum Dots

Each structure is explained by the size - quantized energy of a Z3 exciton confined in a Cuci quantum cube whose side changes stepwise in a unit of a / 2 , where a is the lattice constant of the CuCl crystal [ 78 ] .

Semiconductor Quantum Dots

Quantum dots are one of the most important subjects in nanoelectronics and photonics. This is the most comprehensive and advanced book in the field of quantum dots. It will appeal to researchers, electrical engineers and advanced students.

Quantum Fractals

Arkadiusz Jadczyk. Circular regions appear. 3.1.2.7 Quantum Icosahedron Vertices 0 0 1. # (5–V5) V.H.. Fig. 3.30 Quantum cube for k = 0.6, 109 iterations. Fig. 3.31 Quantum cube for k = 0.7, 109 iterations. Examples 151.

Quantum Fractals

Starting with numerical algorithms resulting in new kinds of amazing fractal patterns on the sphere, this book describes the theory underlying these phenomena and indicates possible future applications. The book also explores the following questions: What are fractals?How do fractal patterns emerge from quantum observations and relativistic light aberration effects?What are the open problems with iterated function systems based on Mobius transformations?Can quantum fractals be experimentally detected?What are quantum jumps?Is quantum theory complete and/or universal?Is the standard interpretation of Heisenberg's uncertainty relations accurate?What is Event Enhanced Quantum Theory and how does it differ from spontaneous localization theories?What are the possible applications of quantum fractals? Contents:IntroductionWhat are Quantum Fractals?:Cantor SetIterated Function SystemsCantor Set Through Matrix EigenvectorQuantum Iterated Function SystemsExample: The "Impossible" Quantum FractalAction on the PlaneLorentz Group, SL(2,ℂ), and Relativistic AberrationExamples:Hyperbolic Quantum FractalsControlling Chaotic Behavior and Fractal DimensionQuantum Fractals on n-SpheresAlgorithms for Generating Hyperbolic Quantum FractalsFoundational Questions:Stochastic Nature of Quantum Measurement ProcessesAre There Quantum Jumps?Bohmian MechanicsEvent Enhanced Quantum TheoryGhirardi–Rimini–Weber Spontaneous LocalizationHeisenberg's Uncertainty Principle and Quantum FractalsAre Quantum Fractals Real?Appendix A. Mathematical Concepts:Metric SpacesNormed SpacesMeasure and IntegralMarkov, Frobenius-Perron and Koopman OperatorsAppendix B. Minkowski Space Generalization of Euler-Rodrigues Formula:Alternative Derivation via SL(2,ℂ) Readership: Advanced undergraduate students and professionals in quantum chaos, as well as philosophers of science. Keywords:Fractals;Quantum Theory;Measurement;Uncertainty;Quantum Jumps;Mobius Transformations;IFS;Spin;Lorentz Group;Relativity;Aberration;Time;GRW;EEQT

No Small Matter

A quantum apple could perhaps also simultaneously be a quantum cube . We live in a world of large things . A 10 - pound concrete block weighs 10 pounds and is made of concrete , regardless of how we look at it .

No Small Matter

Explains the purposes, behaviors, processes, and importance of nanostructures in modern technology, and considers the benefits and costs of using them in future technologies.

Quantum Cube

Quantum cube tells the story of the young kilian, an ordinary man who one morning finds that the world is completely empty, after a few hours walking around his city, he falls asleep and awaken a parallel reality, where he becomes leader of ...

Quantum Cube

Quantum cube tells the story of the young kilian, an ordinary man who one morning finds that the world is completely empty, after a few hours walking around his city, he falls asleep and awaken a parallel reality, where he becomes leader of a group rebel, beside an old friend, of this reality he will face his destiny and will find that quantum realities can only be illusions of his head

Foundations of Quantum Theory

Disilvestro L. and Markham D., Quantum Protocols within Spekkens' Toy Model, Phys. Rev. A, 95 (2017) 052324. Blasiak P., Quantum cube: A toy model of a qubit, Phys. Lett. A, 377 (2013) 847. Larsson J., A contextual extension of ...

Foundations of Quantum Theory

This volume provides a summary of the lectures presented at the International School of Physics "Enrico Fermi" on the Foundations of Quantum Theory, organized by the Italian Physical Society in Varenna, Italy from 8-13 July 2016, in collaboration with the Wilhelm und Else Heraeus-Stiftung. It was the first "Enrico Fermi" Summer School on this topic since 1977. Its main goal was to provide an overview of the recent theoretical and experimental developments in an active field of research, the foundations of quantum mechanics. The field is characterized by a dichotomy of unparalleled agreement between theory and experiment on the one hand, and an enormous variety of interpretations of the underlying mathematical formalism on the other hand. This proceedings of the "Enrico Fermi" Summer School of July 2016 contains 21 contributions on a range of topics: the history and interpretations of quantum theory; the principle of complementarity and wave-particle duality; quantum theory from first principles; the reality of the wave function; the concept of the photon; measurement in quantum theory; the interface of quantum theory and general relativity; and quantum optical tests of quantum theory.

Oxford Handbook of Nanoscience and Technology

One could, in principle, make such a structure by embedding a cube of a small-gap semiconductor, such as InAs, inside a relatively wider-gap GaAs or (Al,Ga)As semiconductor material to form a quantum cube structure.

Oxford Handbook of Nanoscience and Technology

These three volumes are intended to shape the field of nanoscience and technology and will serve as anessential point of reference for cutting-edge research in the field.

The Quantum Connection

Don't get me wrong; some of the work was challenging, but nothing like the reverse engineering of that magical green and orange quantum cube device. The biggest depressing fact was that after more than six months, there was still no ...

The Quantum Connection

The Breathtaking Sequel to Warp Speed¾Science Fiction Written by a Real Scientist Who is Also a Gifted Writer. Steven Montana, computer whiz and hacker extraordinaire, was attending college in Ohio when his world fell apart. A swarm of huge meteors fell all over the world, on Europe, on the United States, and in particular on Steven's home town in California. In an instant, his family and all his friends were gone. Suffering fits of deep depression, he dropped out of college and ended up working as a repairman in a video games store, where he did a brilliant job of repairing a 30-year-old video game. That caught the attention of the game's owner, who happened to be in a position to get Steven a government job, cracking computer codes, and reverse engineering unusual hardware. When he was given a tiny piece of hardware to examine as a "test," he worked out its functions so well that he and his boss were called to Washington for a Top Secret meeting. They asked him countless questions, yet declined to answer his; but he would soon learn all the answers. The "meteor" onslaught that had orphaned him had actually been a brief and still secret war between the U.S and its enemies (as told in Warp Speed) using a new warp drive technology that was more secret than top secret. Another secret was that U.S. had been sending faster-than-light ships to other star systems. Most secret of all was that unfriendly aliens were observing the Earth, and while U.S. spaceships were not quite in a war with the unknown aliens, they were shooting at the intruders. Whether any of these answers would do Steven any good was an open question because he learned them only after he was abducted by those very same aliens and was held prisoner on one of their ships orbiting Saturn. At first, he was one of three human prisoners, but he had just seen the aliens completely dissect one of the three, and it looked like either Steven, or the Russian girl who was his fellow prisoner, were scheduled to be the next alien lab experiment. . . . At the publisher's request, this title is sold without DRM (Digital Rights Management). Praise for Warp Speed, the prequel: "Reads like Doc Smith writing Robert Ludlum; beautiful, vivacious female astronauts, sterling-hearted redneck scientists and evil mercenaries bent upon galaxy-wide conquest. You won't want to put it down. FLUBELLS AWAY!" ¾John Ringo "You thought they didn't write 'em like this anymore Doc Travis does!" ¾Jim Baen

Once Upon a Time In the Stars 2 Giga City Lizard

It was the other sub capital, totally emptied of all buildings but one, The Quantum Cube. It sat more or less in the centre of the semi circle plan, surrounded by tall wild grasses that blew in waves of wind from the openings all around ...

Once Upon a Time In the Stars  2  Giga City Lizard

Arc’s insane plan continues to reveal itself as Bailey gains status within the Giga city. As Bailey becomes more comfortable in his new life as the Giga City Lizard he is sicked to find that Arc has contrary plans. So Bailey hatches a plan of his own to marry his new love Bede and rid the city of her enemies, Old Gang once and for all. At odds now with his schizophrenic other half, Arc’s plan accelerates to the next unthinkeable level, and closer to the citadels.

Progress in Nano Electro Optics V

Due to the effect of size confinement, the center of mass motion and relative motion for an exciton in a CuCl quantum cube are [19] 3/2 F. (Ra) = (#) sin (**) sin (**) sin (**) , (42) 2.0)===e." (43) S Vtoro 2 respectively, ...

Progress in Nano Electro Optics V

Focusing on nanophotonics, which has been proposed by M. Ohtsu in 1993, this volume begins with theories for operation principles of characteristic nanophotonic devices and continues with novel optical near field phenomena for fabricating nanophotonic devices. Further topics include: unique properties of optical near fields and their applications to operating nanophotonic devices; and nanophotonic information and communications systems that can overcome the integration-density limit with ultra-low-power operation as well as unique functionalities. Taken as a whole, this overview will be a valuable resource for engineers and scientists working in the field of nano-electro-optics.

Giga City Lizard Skeleton Crew

It was the other sub capital, totally emptied of all buildings but one, The Quantum Cube. It sat more or less in the centre of the semi circle plan, surrounded by tall wild grasses that blew in waves of wind from the openings all around ...

Giga City Lizard   Skeleton Crew

Giga City Lizard is the second in the epic Skeleton Crew series by R. M. Gordge. A new novel from the acclaimed author of The Eternal Cold. This tense and intriguing story takes us on the second leg toward the formation of the skeleton crew. The giga city lizard has mastered the game and now runs freely through all levels and territories of the city. Meanwhile, Arc's insane plan further reveals itself at a slow and nail biting pace, building to the inevitable and action packed climax. Enjoyable high concept drama set in an unnerving, believable vision of the future.

T I M E Stories

A cube about this size.” Bob spread his thumb and index finger about five inches wide. “We'll call it the 'quantum cube' to keep things simple.” “What does it do, this cube?” asked Tess. “Just find it and bring it to us.

T I M E Stories

The official novel of the best science fiction narrative game, T.I.M.E Stories! It is the year 2468. Spotted by a recruiter, Tess Haiden passed the many tests required to join a highly secretive organisation with flying colours. But she is in for a shock: T.I.M.E Agency has been sending agents through time for several years. Thanks to considerable resources, they prevent anomalies and paradoxes by dispatching their agents to different eras and places around the world. But over the course of her many missions, Tess learns that they are not the only ones using these time corridors, and she begins to wonder about the true nature of the T.I.M.E agency… File Under: Science Fiction [ Heiden Seek | All A Board | Outatime | Mission Possible ]

Microelectronics and Optoelectronics Technology

... levels in a quantum well , a quantum wire with square cross - section and a quantum cube with infinite barriers . The energy E , equals the lowest energy in a quantum well , which has the same size Quantum Well ņ E / E Degeneracy 1 ...

Microelectronics and Optoelectronics Technology


Terahertz Physics

5.37 (X y) ( ) I Exercise 5.6 Quantum cube or quantum dot Show that a particle of mass m, confined in three perpendicular directions to a length L, has energy states given by 2 2 2 2 E(nx,ny,nz) I (nx+ny +nz)8mL2.

Terahertz Physics

Terahertz physics covers one of the least explored but richest regions of the electromagnetic spectrum. Designed for independent learning, this is the first book to open up this exciting new field to students of science and engineering. Written in a clear and consistent style, the textbook focuses on an understanding of fundamental physical principles at terahertz frequencies and their applications. Part I outlines the foundations of terahertz science, starting with the mathematical representation of oscillations before exploring terahertz-frequency light, terahertz phenomena in matter and the terahertz interactions between light and matter. Part II covers components of terahertz technology, from sources of terahertz frequency radiation, through the manipulation of the radiation, to its detection. Part III deals with applications, including time-domain spectroscopy. Highlighting modern developments and concepts, the book is ideal for self-study. It features precise definitions, clear explanations, instructive illustrations, fully worked examples, numerous exercises and a comprehensive glossary.

Handbook of Self Assembled Semiconductor Nanostructures for Novel Devices in Photonics and Electronics

As shown in Figure 12.4, the lowest state of a quantum cube has a set of three quantum numbers, (111), but a quantum sphere of Si has (011), in addition to the other complications arising from the directional effective masses.

Handbook of Self Assembled Semiconductor Nanostructures for Novel Devices in Photonics and Electronics

The self-assembled nanostructured materials described in this book offer a number of advantages over conventional material technologies in a wide range of sectors. World leaders in the field of self-organisation of nanostructures review the current status of research and development in the field, and give an account of the formation, properties, and self-organisation of semiconductor nanostructures. Chapters on structural, electronic and optical properties, and devices based on self-organised nanostructures are also included. Future research work on self-assembled nanostructures will connect diverse areas of material science, physics, chemistry, electronics and optoelectronics. This book will provide an excellent starting point for workers entering the field and a useful reference to the nanostructured materials research community. It will be useful to any scientist who is involved in nanotechnology and those wishing to gain a view of what is possible with modern fabrication technology. Mohamed Henini is a Professor of Applied Physics at the University of Nottingham. He has authored and co-authored over 750 papers in international journals and conference proceedings and is the founder of two international conferences. He is the Editor-in-Chief of Microelectronics Journal and has edited three previous Elsevier books. Contributors are world leaders in the field Brings together all the factors which are essential in self-organisation of quantum nanostructures Reviews the current status of research and development in self-organised nanostructured materials Provides a ready source of information on a wide range of topics Useful to any scientist who is involved in nanotechnology Excellent starting point for workers entering the field Serves as an excellent reference manual

Understanding Nanomaterials

... rectangular region (a quantum well) and a three-dimensional cubical region (a quantum cube). Let's first discuss the two-dimensional. Figure 4.9 The density of energy states for different length scales. perfect cube (b).

Understanding Nanomaterials

Praise for the first edition "clear and informative” ―Chemistry World The authors provide the perfect training tool for the workforce in nanotech development by presenting the fundamental principles that govern the fabrication, characterization, and application of nanomaterials. This edition represents a complete overhaul, giving a much more complete, self-contained introduction. As before, the text avoids excessive mathematical detail and is written in an easy to follow, appealing style suitable for anyone, regardless of background in physics, chemistry, engineering, or biology. The organization has been revised to include fundamental physical chemistry and physics pertaining to relevant electrical, mechanical, and optical material properties. Incorporates new and expanded content on hard materials, semiconductors for nanoelectronics, and nonlinear optical materials. Adds many more worked examples and end-of-chapter problems. Provides more complete coverage of fundamentals including relevant aspects of thermodynamics, kinetics, quantum mechanics, and solid-state physics, and also significantly expands treatment of solid-phase systems. Malkiat S. Johal is a professor of physical chemistry at Pomona College, and earned his doctorate in physical chemistry at the University of Cambridge, UK. Lewis E. Johnson is a research scientist at the University of Washington, where he also earned his doctorate in chemistry and nanotechnology.

Solution Processable Components for Organic Electronic Devices

A PbS quantum-cube: conducting polymer composite for photovoltaic applications. Current Applied Physics 4: 320–322. 296 Watt, A., Thomsen, E., Meredith, P., and Rubinsztein-Dunlop, H. (2004). A new approach to the synthesis of ...

Solution Processable Components for Organic Electronic Devices

Provides first-hand insights into advanced fabrication techniques for solution processable organic electronics materials and devices The field of printable organic electronics has emerged as a technology which plays a major role in materials science research and development. Printable organic electronics soon compete with, and for specific applications can even outpace, conventional semiconductor devices in terms of performance, cost, and versatility. Printing techniques allow for large-scale fabrication of organic electronic components and functional devices for use as wearable electronics, health-care sensors, Internet of Things, monitoring of environment pollution and many others, yet-to-be-conceived applications. The first part of Solution-Processable Components for Organic Electronic Devices covers the synthesis of: soluble conjugated polymers; solution-processable nanoparticles of inorganic semiconductors; high-k nanoparticles by means of controlled radical polymerization; advanced blending techniques yielding novel materials with extraordinary properties. The book also discusses photogeneration of charge carriers in nanostructured bulk heterojunctions and charge carrier transport in multicomponent materials such as composites and nanocomposites as well as photovoltaic devices modelling. The second part of the book is devoted to organic electronic devices, such as field effect transistors, light emitting diodes, photovoltaics, photodiodes and electronic memory devices which can be produced by solution-based methods, including printing and roll-to-roll manufacturing. The book provides in-depth knowledge for experienced researchers and for those entering the field. It comprises 12 chapters focused on: ? novel organic electronics components synthesis and solution-based processing techniques ? advanced analysis of mechanisms governing charge carrier generation and transport in organic semiconductors and devices ? fabrication techniques and characterization methods of organic electronic devices Providing coverage of the state of the art of organic electronics, Solution-Processable Components for Organic Electronic Devices is an excellent book for materials scientists, applied physicists, engineering scientists, and those working in the electronics industry.

JJAP

Relations between energy positions of the resonantly burned hole and that of each satellite hole are explained well in terms of the simple concept of a particle in a quantum cube with infinitely high potential barriers .

JJAP


ICGG 2018 Proceedings of the 18th International Conference on Geometry and Graphics

Graphics and Quantum Mechanics—The Necker Cube as a Quantum-like Two-Level System Benedek1,2(&) Giorgio and Giuseppe Caglioti3 1 Dipartimento di Scienza dei Materiali, Università di Milano-Bicocca, Via R. Cozzi 55, 20125 Milan, ...

ICGG 2018   Proceedings of the 18th International Conference on Geometry and Graphics

This book gathers peer-reviewed papers presented at the 18th International Conference on Geometry and Graphics (ICGG), held in Milan, Italy, on August 3-7, 2018. The spectrum of papers ranges from theoretical research to applications, including education, in several fields of science, technology and the arts. The ICGG 2018 mainly focused on the following topics and subtopics: Theoretical Graphics and Geometry (Geometry of Curves and Surfaces, Kinematic and Descriptive Geometry, Computer Aided Geometric Design), Applied Geometry and Graphics (Modeling of Objects, Phenomena and Processes, Applications of Geometry in Engineering, Art and Architecture, Computer Animation and Games, Graphic Simulation in Urban and Territorial Studies), Engineering Computer Graphics (Computer Aided Design and Drafting, Computational Geometry, Geometric and Solid Modeling, Image Synthesis, Pattern Recognition, Digital Image Processing) and Graphics Education (Education Technology Research, Multimedia Educational Software Development, E-learning, Virtual Reality, Educational Systems, Educational Software Development Tools, MOOCs). Given its breadth of coverage, the book introduces engineers, architects and designers interested in computer applications, graphics and geometry to the latest advances in the field, with a particular focus on science, the arts and mathematics education.

Fatropolis

Quantum cube?” “No. But okay, let's go in.” Inside the store there were posters of fat rock stars on every wall and loud music was playing. Fat teenagers were riffling through bins Fatropolis | Tracey L. Thompson.

Fatropolis

The alternative history, paranormal romantic adventure of a young fat woman with low self esteem who falls into another world where fat people lead happy, normal, guilt-free lives. Most of her life Jenny has felt she's not good enough, not attractive enough, because she's fat. Then one day she stumbles through a portal between a world that values thinness and one that values roundness. Sometimes falling can wake you up.