Day 1 :
Keynote Forum
Mahmoud Abdel-Aty
Sohag University, Egypt
Keynote: EFFECT OF NUCLEAR RADIATIONS ON ATOMS IN SOLIDS AND ON CELLS IN HUMANS
Time : 09:30 10:10
Biography:
Abdel-Aty is a Vice-President of African Academy of Sciences and president of National Committee for International Mathematical Union, Director of the Center for International Relations, Sohag University, and Executive President Consultant for Academic Affairs, Zewail City of Science and Technology. He completed his doctorate in quantum optics at Max-Plank Institute of Quantum Optics, Munich, Germany in 1999. He received the D.Sc. (Doctor of Science in Mathematics and Physics), in 2007. His main interests are theories of quantum measurement, nanomechanical modeling, highly nonclassical light, practical information security, and optical implementations of quantum information tasks. He has been published more than 240 papers in international refereed journals, 9 book chapters and 2 books. He is an editor for more than 20 International journals. His research has been widely recognized and he has received several local and international awards. He obtained the Amin Lotfy Award in Mathematics in 2003, the Mathematics State Award for Encouragement in 2003, the Shoman Award for Arab Physicists in 2005, the Third World Academy of Sciences Award in Physics in 2005,Fayza Al-Khorafy award in 2006, the State Award for Excellence in Basic Science in 2009 etc. In 2014 he has been elected as a vice-president of the African Academy of Science and in 2016 he has been elected as a member of governor council, GC, of Egyptian Mathematical Society and managing editor of its journal. In 2018 he has been awarded as Mohammed Bin Rashed Prize for Arabic Language, in category “Best Initiative for Arabic Language Policy and Strategy”.
Abstract:
We analyze the dynamics of entanglement and quantum discord in a two-qubit system coupled to squeezed reservoirs.We present analytical expressions that can be used to efficiently calculate the evolution of quantum discord and entanglement between the two qubits. Our results show that quantum discord is a more general and robust measure of quantum correlations than entanglement. Furthermore, there is a relationship between the time before sudden death of entanglement and the reservoir squeezing angle. Additionally, the increase of squeezing angle accelerates the decay of quantum discord. These results provide new avenues for controlling quantum correlations and designing quantum states that can be used for various quantum computing applications.
Keynote Forum
Salah Arafa
University in Cairo, Egypt
Keynote: New factor of duality measurement
Time : 10:10-10:50
Biography:
Salah Arafa is a Professor in School of Sciences and Engineering in Americal University of Cairo, Egypt.
Abstract:
We are constantly exposed to radiations from a variety of naturally occurring and human-produced sources. These radiations can affect atoms in solids as well as cells in living organisms. The paper discusses how radiation can ionize atoms, molecules or break chemical bonds, which damages the molecules and causes malfunctions in cell processes.Radiation can also create reactive hydroxyl radicals that damage biological molecules and disrupt physiological processes.It can cause somatic or genetic damage and is most harmful to rapidly reproducing cells. Types of radiation differ in their ability to penetrate material and damage tissue with alpha particles the least penetrating but potentially most damaging and gamma rays the most penetrating.The paper shows that there exists various devices and dosimeters which are used to detect and measure radiation and monitor radiation exposure which can cause a wide range of health effects from minor to severe and including death. All radioactive particles and waves from the entire electromagnetic spectrum to alpha, beta, and gamma particles, possess the ability to eject electrons from atoms and molecules to create ions, chemical reactions and damage. We can minimize the effects of radiation by shielding with dense materials such as lead, moving away from the source, and limiting time of exposure.
Keynote Forum
Ben Campbell
Distinguished Researcher, UK
Keynote: The Last tango of the Finite Graviton
Time : 11:10-11:50
Biography:
Ben Campbell Biezanek has the same qualifications for his work as Albert Einstein had in 1905, in a word, none at all. Except perhaps that Biezanek obtained a first class honours degree in electrical and electronic engineering in 1973 while Einstein had nothing but an almost failed high school science teachers certificate. This kind of work has nothing to do with such formal qualifications. As Einstein reported and Biezanek also confirms, one must start out by unlearning everything.
Abstract:
The author started work upon this subject in 2007, 12-years ago. He recognised at the start that the mainstream of physics teaching was failing to connect up the dots between classical views of physics after Newton as modified by Einstein’s special and general relativity with the more rigorous science of quantum physics, so he tried the different approach of going back to first principles in everything and seeking the error. The error was found in Albert Einstein’s retention of classical units within his equations for relativity. For example; Einstein retains the metre to express a “speedof-light” in metres per second, while it turns out from diligent observational work by Clauser and Freedman (USA 1972) and Alain Aspect (France, ongoing) demonstrating instant action at a distance with entangled quanta, that the metre is an inadmissible unit that has no proper applicability within a correct appreciation of relativity. The equations that Einstein gave us were correct within the terms that he stated them, but classical measurement units are insufficiently rigorous for fully connecting the real world of the quanta with the illusions seen and experienced within our macro world of classical physics. In the author’s opinion, this is the most dramatic and far reaching insight ever achieved within our progress towards a better fundamental understanding of the real physical nature of our universe. This discovery makes it much easier for students to understand atomic physics.
Keynote Forum
Gianluca Orecchini
Pedersen & Partners, Italy
Keynote: From Physics to C-level positions
Time : 11:50-12:30
Biography:
Gianluca Orecchini is a Client Partner and the Global Head of Engineering practice at Pedersen & Partners, based in Milan, Italy. Mr. Orecchini brings more than 20 years of international experience in Consulting, Business Development and Recruiting having managed and completed cross-border assignments across Energy, Aerospace and High-Tech Industry.He also actively supporting start-ups in Italy.Mr. Orecchini holds a Master’s Degree in Aerospace Engineering from La
Sapienza University of Rome in Italy.
Abstract:
Most of Fortune 500 CEOs come from Computer Science studies. Then Economics, Business, Finance. Is Physics a field of study empowering managers to C-level positions? Do Physicians career paths effectively bring up to topmanagement responsibilities? Data and considerations.
- Quantum Mechanics | Atomic Physics | Nuclear Physics | Nuclear Astrophysics | Materials in Nuclear Energy Systems | Theoretical Quantum Physics | Quantum Information System | Quantum Physics| Quantum Field Theories | Quantum Condensed Matter Physics
Location: Olimpica 3
Chair
Ben Campbell
Distinguished Researcher, UK
Session Introduction
Alon Yarel
Alien- Science Association of Astronomy Org.il research company, Israel
Title: Discovery of the origin of the universe, discovery the source of the sun's formation
Time : 12:30-13:00
Biography:
Alon Yarel completed electronics engineer at the age of 25 at the Sapir Academic College in Sderot, Israel. He is the Managing Director & Founder of - Alien-Science Association Of Astronomy Org.il a research company in the field of astronomy. He has published dozens of articles, pictures and video clips explaining the origin of the universe and the formation of the sun, negates the existence of nuclear fusion within the sun. He discovered that our universe was created in the collapse of a star in another, time-distorted universe. He is waiting for the entry of a senior partner to extract the discoveries for the benefit of humanity.
Abstract:
Since the Big Bang was recognized as the source of the existence of the universe, many physics conclusions have been made.If it were scientifically recognized that our universe was created in the collapse of a star in another universe with millions of years' time distortion, then other physics conclusions would have been made. All phenomena not understood in the solar system attributed to nuclear fusion. For example rotate the sun around the axis and rotate the equator faster than the poles.
The sun's corona is 300 times warmer than the surface of the sun. Magnetism within the sun. The tilt of the planets with polarity changes at half the circumference of the sun. The energy source of the sun. The very existence of the sun. But there is phenomenon that can explain all the phenomena attributed to nuclear fusion within the sun and it is a collapse of a star in another universe distorted in time and the formation of a new sun. Because of the distortion of time between universes the mass coming out of the black hole is star dust saturated with the energy of natural gas and fuel. When the dust of the stars ignites, a new sun is created. A black hole injects star dust into the sun and turns the sun around the axis, causing the equator to circulate faster than the poles. Natural gas and fuel float, burning outside the sun and causing the corona to be 300 times warmer than the surface of the sun. Increased magnetism in the sun is actually the gravity of the star collapses in another universe that passes through a narrow opening of the black hole, in two opposite directions. The tilt of the planets is also due to the increased gravity of the sun as a result of the gravity of the star collapsing in anotheruniverse that passes through a narrow opening of the black hole, in two opposite directions. The energy of the sun is produced by the combustion of gas and fuel on the surface of the sun. The sun was created from star dust which came from the collapse of a star in another universe through
a black hole with time distortion between the universes.
Biography:
Tina Matzat is an independent filmmaker and founder of Qbit Films – a production company based in Berlin. While studying information sciences in Potsdam, she was confronted with the limitations of artificial intelligence and the implications of model and system theory – topics that found their way back into her writing while working on the current project '3025' – a metaphysical sci-fi script set in a futuristic world based on the principles of quantum physics and beyond.
Abstract:
The main problem the protagonists in the science fiction film '3025' are facing is the same that A.I. researchers are facing which is also the main problem of system theory: Would it be possible to create / exist outside the box? So the idea of free will and the power of consciousness are the main themes. After all, in a system where consciousness creates matter, everything that is thinkable is possible and the system (the human) should be able to emancipate from its original source. As a basis for this futuristic world the film offers various theoretical explanations about the beginning of our universe, humanity's origin,evolution and purpose, the nature and fabric of our reality, black and white holes, quantum entanglement, de coherence and indeterminism – inspired by (meta)physics and quantum sciences.
Manal Gamal Eldin Mohamed
Beni-Suef University, Egypt
Title: Engineering entanglement of a general two- levels Atom interacting with the enviroment
Time : 14:30-15:00
Biography:
Manal Gamal Eldin Mohamed is a lecturer in applied mathematics in mathematics and computer Science department, faculty of science, Beni -Suef University, Beni-Suef, EGYPT. She is Vice-President of Organization and Protocol Committee (OPC). She has published more than 10 papers in international refereed journal.She is a member in NSP international Conferences
Abstract:
We discuss some new features of the model of a bipartite system interacting with the environments. An analytic solution of the master equation is obtained. We find that the effect of system parameters, such as the initial state setting, the detuning and the mean photon numbers can be used as controller parameters of entanglement. Our results motivate new designs of weak signal detectors by engineering entanglement, which are of fundamental significance in the information science.
Biography:
Michael D Norton earned entry into an honours physics program at the University of York at the age of 29. He is the CEO of Odeas Marketing and Investing (OMI Firm) a holding company for Wolven Industries. Wolven Industries is an engineering firm focused on engineering products to support American military, police forces and civilian families. He has helped to build nearly 70 businesses over the process of 5 years via consulting and investing. He is also a bestselling independent author and veteran of the United States military who is a 7-time winner of the USS Dwight Eisenhower award for essays of world peace and respect.
Abstract:
The quantum future of body armors, it is a presentation addressing the limitations of body armor used by both military,police forces and civilians in America as well as the developing future of pushing beyond the bounds of those limitations with quantum physics. Supporting literature was collected from a variety of sources including PubMed. Problems addressed are the weight of the armor, breathability and the body type of the wearer. Ballistic analyses pertaining to different types of polymers as well as armor’s lack of ability to self-repair and heal the wearer. Solutions explored are lightening the weight of the armor, increasing its breathability, biometric ownership of the armor for national security purposes, innovated polymers reversed-engineered from the quantum level and nanomachine technology for the material’s ability to self-repair and heal some wounds of the user. Obstacles preventing the innovation of such solutions are explored such as limitations of nanotechnology based on the laws of thermodynamics as well as economical inhibitions connected to the cost of production.
Ahmed Mostafa Mohammed Elsheekh
Obour Institute for Engineering and Technology, Egypt
Title: New factor of duality measurement
Time : 15:30-16:00
Biography:
Ahmed Mostafa Mohammed Elsheekh "Ahmed M. M. Elsheekh" has completed his PhD at the age of 41 years from Tanta University. He is the instructor of Physics and he developed Bohr's Theory of Hydrogen atom in 2013. He is Faculty of science, Tanta University, Egypt. International Journal of Theoretical and Mathematical Physics
Abstract:
This article will add very important missing factor(s) related to wave behavior, particle behavior and duality nature. We used old familiar experiments addition to new effects. Collected data is re- explained due to the new missing factor. Conflicting behavior has is explained in this article. This experiment and the missing factor(s) will give compelling evidence to correct and understanding the dual nature property. This explanation and experiment is so easy to be understood by all physicists even for those never studied quantum mechanics. Obour High Institute for Engineering and Technology is one of the best private institutes in Egypt. We are in the era when the world is a small village managed to science and technology become had to be the private sector that in turn contributes to bear the burdens of the new phase of share and participate in the educational process planning and execution and developed. For this it was the beginning of the establishment of the Egyptian Society for Quality, training and in 1025 he took up a number for the year 1997, which created:
• Higher transit management, computers and information systems at 1999
• Higher Institute of Engineering and Technology to cross at 2008
• Transit institutes located at the confluence of the city and the transit through Cairo / Belbais 21 kilobytes on 62000 square
meters.
Khatuna Chargazia
Tbilisi State University, Georgia
Title: Superdiffusive transport in the geospace environments with shear flows
Time : 16:30-17:00
Biography:
In 2006 she has completed her PhD at the age of 29 years from Iv. Javkhishvili Tbilisi state University and postdoctoral studies from M. Nodia Institute of Geophysics. She is the team leader of the group of ionospheric studies at the Tbilisi State University. She has published more than 70 papers in reputed journals.
Abstract:
Analytical and numerical simulations’ data show that the transport of energetic particles in the presence of magnetic turbulence can be superdiffusive. The so-called anomalous transport has gained growing attention during the last two decades in many fields including laboratory plasma physics, and recently in astrophysics and space physics. Here the examples, both from laboratory and from astrophysical plasmas are shown, where superdiffusive transport has been identified, with a focus on what could be the main influence of superdiffusion on fundamental processes like diffusive shock acceleration and heliospheric energetic particle propagation. The use of fractional derivatives in the diffusion equation is also discussed, and directions of future investigations are indicated.
Sebastian Davies
University of Liverpool, UK
Title: RISK CDT: PhD studentship in new approaches for modelling and simulation in nuclear power plants
Time : 17:00-17:30
Biography:
Sebastian Davies is currently doing his Phd Studentship in University of Liverpool in United Kingdom.
Abstract:
Updating the currently available nuclear reactor modelling and simulation programs is one of the key issues for a successful nuclear renaissance in the UK. This work will create an innovative contribution to the development of the UK national program in Digital Nuclear Reactor Design improving the modelling and simulation of future reactors. It will be performed in close co-operation with specialists at the University of Liverpool, Virtual Engineering Centre and industrial partners to assure good guidance and understanding of the industrial demand for improved software solutions. The work will be performed at the inter-connection between modern software development and nuclear reactor technologies with access to advanced highperformance computing and virtual engineering technologies.
M.Y.H. Farag
Cairo University, Egypt
Title: New empirical formulae for the in-medium nucleon-nucleon cross-section
Time : 17:30-18:00
Biography:
Mohamed Yehia Farag is a professor in Cairo University, Egypt.
Abstract:
New empirical formulae for in-medium nucleon-nucleon cross-section are presented and used to study the proton-nucleus interaction in the framework of Glauber model. The total, absorption and elastic cross-sections are calculated for many target nuclei. The calculated total cross-sections using the inmedium effective factor, fm4, give a reasonable fit with the experimental data. In addition, the in-medium factorsfm1, fm2 and fm3 successfully reproduce the absorption cross-section at energies up to 600 MeV.
Pattan Akram(YRF)
Sapienza University School of Aerospace Engineering, Italy
Title: Gas core nuclear rocket engine for interstellar space travel
Time : 18:00-18:30
Biography:
Mr. Pattan Akram completed his bachelors in Mechanical Engineering at the age of 20 from K.L.University and pursuing masters in Aerospace Engineering from Sapeinza University of Rome, Italy. He has published a Design patent during his
bachelors.
Abstract:
Gas core nuclear rocket is a prodigious concept which helps in human exploration throughout the solar system and beyond because of high specific impulse (−̃3000sec – 5000sec) and high thrust (−̃44200lb). A gas core nuclear rocket uses nuclear fuel in a gaseous state instead of liquid or solid. It will be the most effective rocket when compared to the other conventional rockets. As in the propulsion system higher the temperature results in higher specific impulse which is possible with this concept. The whole process is confined in a pressure shell to confront the cavity pressure. Here the propellant such as hydrogen is heated by the radiation emitted from the fissioning process of the uranium fuel and the heated hydrogen escapes through the nozzle to produce thrust. At high temperature hydrogen becomes transparent to this radiation, so seeding technique is used by providing additional seeding material to make it opaque which in turns also preserves the walls. Moderator is introduced inside the pressure shell to moderate or thermalize the neutrons which are coming from fuel region. Excess amount of heat is absorbed by the cooling agents which are present in the pressure shell. Having complexities such as fuel loss along with propellant, higher working temperature is limited by its component’s lowest melting temperature & maintaining the gaseous plasma ball. In order to overcome these complexities many ideas can be set down to make it real time.
Claude Michael Cassano(Video Presentation)
San Jose State University, USA
Title: The Maxwell-Cassano equations of an electromagnetic-nuclear field yields the fermion masses
Time : 18:30-18:45
Biography:
Claude Michael Cassano developed Helmholtzian factorization of the four-vector d’Alembertian operator and generalized to apply results to quantum and unified field theory. Authored several mathematics and mathematical physics books and numerous mathematics and mathematical physics videos and articles in reputed journals and has been serving as an editorial board member of repute. He taught mathematics courses at U.C.,Riverside, Crafton Hills College & University of Redlands from 2005 through 2008. In 2004 SJSU Math Department Hoggatt award scholarship, SJSU Math Department Fuller Award Scholarship in 2003and he earned M. A. Mathematics, SJSU 05/2004, Earned B.A.Mathematics at CSU, Chico 06/1973 are his academic honors.
Abstract:
The Maxwell-Cassano equations of an electromagnetic-nuclear field yields the fermion masses.The Maxwell-Cassano equations yield a fermion architecture table equivalent to that of the fermion Standard Model. Given a pair of constantsdefined by an affine transformation relating them to two rational fractions, a set of two equations determine all fermion masses.