Astrophysics

1805 Submissions

[30] viXra:1805.0549 [pdf] submitted on 2018-05-31 05:47:39

Charged Dark Matter

Authors: George Rajna
Comments: 44 Pages.

A recent astronomical observation that the ordinary matter in the early universe was much cooler than expected could be explained if a small proportion of dark matter has a tiny electric charge. [27] This week, scientists from around the world who gathered at the University of California, Los Angeles, at the Dark Matter 2018 Symposium learned of new results in the search for evidence of the elusive material in Weakly Interacting Massive Particles (WIMPs) by the DarkSide-50 detector. [26] If they exist, axions, among the candidates for dark matter particles, could interact with the matter comprising the universe, but at a much weaker extent than previously theorized. New, rigorous constraints on the properties of axions have been proposed by an international team of scientists. [25] The intensive, worldwide search for dark matter, the missing mass in the universe, has so far failed to find an abundance of dark, massive stars or scads of strange new weakly interacting particles, but a new candidate is slowly gaining followers and observational support. [24] “We invoke a different theory, the self-interacting dark matter model or SIDM, to show that dark matter self-interactions thermalize the inner halo, which ties ordinary dark matter and dark matter distributions together so that they behave like a collective unit.” [23] Technology proposed 30 years ago to search for dark matter is finally seeing the light. [22]
Category: Astrophysics

[29] viXra:1805.0541 [pdf] submitted on 2018-05-30 06:54:45

Tidal Star Disruption Events (TDE) by Fermion Repelling Black Holes in Quantum FFF Theory.

Authors: Leo Vuyk
Comments: 30 Pages.

According to Quantum FFF Theory, all Black Holes (BHs) repel all Fermionic matter, by the Fermionic rigid string shaped propeller based spin flip at all black hole horizons, even around ball lightning BHs. A tidal disruption event (TDE), is a bright flare of radiation around the central Black Hole (BH) assumed to be the interaction with a local star.. However, according to Q-FFF Theory, the star will not be consumed by the black hole, but torn apart and ejected into two jets and a plasma disc. Only other smaller black holes like Super nova BHs are postulated to be consumed by the central growing black hole. New physics black holes are also supposed to be responsible for dual BH Herbig Haro systems, with a third growing BH in the center in case of Galaxy formations. In Quantum FFF Theory, ( Function Follows Form at the quantum scale), it is assumed, that all Black holes repel Fermionic matter! by their propeller based (Fermion propeller rigid string) spin flip at all black hole horizons even ball lightning micro BHs seem to repel Fermions.
Category: Astrophysics

[28] viXra:1805.0523 [pdf] submitted on 2018-05-29 19:41:42

The Time Definition

Authors: Gerges Francis Tawdrous
Comments: 47 Pages.

Abstract -The Solar Planets motions are relativistic motions -Earth real Velocity = 0.99 c -The time is an Energy -Based on Relativistic Motions, the distances values can be seen as time values i.e. -The time is equivalent for the distance (a development for the Special Theory of Relativity made by me) -The Solar group geometrical structure depends on the time and Distance equivalence (based on relativistic motions), to create different rates of time, which enables the system to accumulate the Energy Let's summarize this idea in following: -Based on the solar group relativistic motions, time and distances values are equivalence -The solar geometry uses unified distances to create different values of time, which are seen by different cycles -The time different values depend on each other to create different rates of time -By this different rates of time the Energy can be accumulated to produce huge energy from average one. -Based on this description, the solar planets motions produce the sun light beams
Category: Astrophysics

[27] viXra:1805.0522 [pdf] submitted on 2018-05-29 20:39:44

Radio Astronomy Below 1 Hz

Authors: Frank H. Makinson
Comments: 4 Pages.

There is multi-century visual evidence that extremely long wavelength electromagnetic emissions are present in the universe. The megawalls of galaxies in both directions from Earth identify the presence of extremely long cyclic processes. Many long period events have been detected with instruments and visual observations, but never associated with electromagnetic waves. Optical and radio telescopes can maintain a constant celestial reference point for a fraction of a day, but this duration is sufficient to detect signals that are below 1 Hz. The electromagnetic emissions that are generated at or near our galactic core would be those that we should be able to detect directly. As lower frequency antenna/sensors become available the spectrum that needs to be scanned will gradually increase.
Category: Astrophysics

[26] viXra:1805.0517 [pdf] submitted on 2018-05-30 03:46:16

Stringent Limit on Dark Matter

Authors: George Rajna
Comments: 60 Pages.

Experimental results from the XENON1T dark matter detector limit the effective size of dark matter particles to 4.1X10-47 square centimeters—one-trillionth of one-trillionth of a centimeter squared—the most stringent limit yet determined for dark matter as established by the world's most sensitive detector. [33] The U.S. Department of Energy has approved funding and start of construction for the SuperCDMS SNOLAB experiment, which will begin operations in the early 2020s to hunt for hypothetical dark matter particles called weakly interacting massive particles, or WIMPs. [32] Thanks to low-noise superconducting quantum amplifiers invented at the University of California, Berkeley, physicists are now embarking on the most sensitive search yet for axions, one of today's top candidates for dark matter. [31]
Category: Astrophysics

[25] viXra:1805.0489 [pdf] submitted on 2018-05-27 06:43:22

Particle in Rotating Spacetime

Authors: George Rajna
Comments: 31 Pages.

When a massive astrophysical object, such as a boson star or black hole, rotates, it can cause the surrounding spacetime to rotate along with it due to the effect of frame dragging. [21] Rotating black holes and computers that use quantum-mechanical phenomena to process information are topics that have fascinated science lovers for decades, but even the most innovative thinkers rarely put them together. [20] If someone were to venture into one of these relatively benign black holes, they could survive, but their past would be obliterated and they could have an infinite number of possible futures. [19] The group explains their theory in a paper published in the journal Physical Review Letters—it involves the idea of primordial black holes (PBHs) infesting the centers of neutron stars and eating them from the inside out. [18] But for rotating black holes, there's a region outside the event horizon where strange and extraordinary things can happen, and these extraordinary possibilities are the focus of a new paper in the American Physical Society journal Physical Review Letters. [17] Astronomers have constructed the first map of the universe based on the positions of supermassive black holes, which reveals the large-scale structure of the universe. [16] Astronomers want to record an image of the heart of our galaxy for the first time: a global collaboration of radio dishes is to take a detailed look at the black hole which is assumed to be located there. [15] A team of researchers from around the world is getting ready to create what might be the first image of a black hole. [14] "There seems to be a mysterious link between the amount of dark matter a galaxy holds and the size of its central black hole, even though the two operate on vastly different scales," said Akos Bogdan of the Harvard-Smithsonian Center for Astrophysics (CfA). [13] If dark matter comes in both matter and antimatter varieties, it might accumulate inside dense stars to create black holes. [12] For a long time, there were two main theories related to how our universe would end. These were the Big Freeze and the Big Crunch. In short, the Big Crunch claimed that the universe would eventually stop expanding and collapse in on itself. This collapse would result in…well…a big crunch (for lack of a better term). Think " the Big Bang " , except just the opposite. That's essentially what the Big Crunch is. On the other hand, the Big Freeze claimed that the universe would continue expanding forever, until the cosmos becomes a frozen wasteland. This theory asserts that stars will get farther and farther apart, burn out, and (since there are no more stars bring born) the universe will grown entirely cold and eternally black. [11] Newly published research reveals that dark matter is being swallowed up by dark energy, offering novel insight into the nature of dark matter and dark energy and what the future of our Universe might be. [10] The gravitational force attracting the matter, causing concentration of the matter in a small space and leaving much space with low matter concentration: dark matter and energy. There is an asymmetry between the mass of the electric charges, for example proton and electron, can understood by the asymmetrical Planck Distribution Law. This temperature dependent energy distribution is asymmetric around the maximum intensity, where the annihilation of matter and antimatter is a high probability event. The asymmetric sides are creating different frequencies of electromagnetic radiations being in the same intensity level and compensating each other. One of these compensating ratios is the electron – proton mass ratio. The lower energy side has no compensating intensity level, it is the dark energy and the corresponding matter is the dark matter.
Category: Astrophysics

[24] viXra:1805.0470 [pdf] submitted on 2018-05-26 10:33:07

Dark Matter's Hidden Valley

Authors: George Rajna
Comments: 58 Pages.

A Multiverse—where our Universe is only one of many—might not be as inhospitable to life as previously thought, according to new research. [30] Astrophysicists from the University of Surrey and the University of Edinburgh have created a new method to measure the amount of dark matter at the centre of tiny "dwarf" galaxies. [29] A research team of multiple institutes, including the National Astronomical Observatory of Japan and University of Tokyo, released an unprecedentedly wide and sharp dark matter map based on the newly obtained imaging data by Hyper Suprime-Cam on the Subaru Telescope. [28] A signal caused by the very first stars to form in the universe has been picked up by a tiny but highly specialised radio telescope in the remote Western Australian desert. [27] This week, scientists from around the world who gathered at the University of California, Los Angeles, at the Dark Matter 2018 Symposium learned of new results in the search for evidence of the elusive material in Weakly Interacting Massive Particles (WIMPs) by the DarkSide-50 detector. [26] If they exist, axions, among the candidates for dark matter particles, could interact with the matter comprising the universe, but at a much weaker extent than previously theorized. New, rigorous constraints on the properties of axions have been proposed by an international team of scientists. [25] The intensive, worldwide search for dark matter, the missing mass in the universe, has so far failed to find an abundance of dark, massive stars or scads of strange new weakly interacting particles, but a new candidate is slowly gaining followers and observational support. [24]
Category: Astrophysics

[23] viXra:1805.0469 [pdf] submitted on 2018-05-26 11:18:26

Technische Anwendungen Zur Umwandlung Der Rotationsenergie Der Erde in Elektrische Energie in Theorie Und Praxis 1

Authors: Robert Stach
Comments: 17 Pages.

Technische Anwendungen zur Umwandlung der Rotationsenergie der Erde in elektrische Energie in Theorie und Praxis
Category: Astrophysics

[22] viXra:1805.0455 [pdf] replaced on 2018-05-30 10:22:44

The `constant Lagrangian' Fit of Galaxy Rotation Curves as Caused by Hubble Space Expansion Under Baryonic Energy Conservation Conditions.

Authors: E.P.J. de Haas
Comments: 8 Pages.

In my opinion, the problem of the galaxy rotation curves can be solved on the basis of the combined and competing principles of space expansion and energy conservation on the one hand and gravitational contraction and the virial theorem on the other hand. Thus far it has been assumed that the existence of galaxies is proof of the dominance of gravitational contraction in galaxies. In this paper I present arguments in favor of my conviction that this assumption is wrong and that space expansion is one of the two dominating and competing principles active in galaxies. I propose to reset, rethink and rescale the presupposed boarder between Newtonian gravitational contraction and Hubble space expansion. This effectively identifies Dark Matter attributed effects in galaxies as Dark Energy manifestations.
Category: Astrophysics

[21] viXra:1805.0450 [pdf] submitted on 2018-05-24 15:48:32

The Neo-Heraclides Model

Authors: John Roach
Comments: 6 Pages.

In this essay, the Neo-Heraclides Model offers new paradigms in Astronomy, Gravity & Global Warming/Climate Change. In Astronomy, a Geocentric Model with Heliocentric features is offered. In Gravity, both the Hidden Attractant Force (Isaac Newton)& Geometric Gravity(Albert Einstein) is dismissed & replaced. In Global Warming, a cyclical climate change & its causal agency is offered. Also, the mystery that surrounds the photosynthesis reaction is solved.
Category: Astrophysics

[20] viXra:1805.0447 [pdf] submitted on 2018-05-24 22:55:49

Dark Photons, Ferent Particles FTL

Authors: Adrian Ferent
Comments: 160 Pages. © 2015 Adrian Ferent

Dark Photons, Ferent Particles FTL The photons mediate electromagnetic interactions between particles in the Standard Model (baryonic matter); in the same way dark radiation, Dark Photons mediate interactions between Dark Matter particles. Dark Photons have zero rest mass. “Ferent equation for Dark Photons energy: E = a × f ” Adrian Ferent Dark Photons are Dark Matter particles. “Dark Photons are Ferent Particles” Adrian Ferent What is Dark Matter in my Gravitation theory? At Ferent wall due to the extraordinarily small scale of the universe at that time, Gravitation was the only physical interaction. At Ferent wall were created Dark Matter and Gravitons. “Black holes are Ferent Matter” Adrian Ferent What is Ferent Matter? Ferent Matter is high density Dark Matter: Ferent density ≥ Ferent matter density > Planck density The majority of Ferent Matter is the core of the supermassive black hole, in the center of each galaxy. Ferent Matter plays a central role in galaxy formation and evolution. “The primordial black holes in the early universe are Ferent matter” Adrian Ferent 3. I am the first who explained what Black holes are: Black holes are Ferent matter 4. I am the first who discovered that the majority of dark matter is in the core of the supermassive black holes 5. I am the first who discovered another wall, the Ferent wall, beyond the Planck wall “Dark Matter is in my Gravitation theory, not in Einstein’s gravitation theory, String theory, LQG…” Adrian Ferent This is another proof that my Gravitation theory is right and Einstein’s gravitation theory, String theory, LQG… are wrong theories. I am the first who explained what Black holes are: “Black Holes are Dark Matter” Adrian Ferent Multiple universes: Subuniverses in my Gravitation theory: “Because there are 2 walls, there are 2 subuniverses: Ferent universe and Planck universe” Adrian Ferent Here is the proof that I was the first who explained that Black Holes are Dark Matter: ‘Ferent Matter is Dark Matter’ on YouTube: “The momentum operator for Dark Matter particles:” Adrian Ferent “Total energy operator for Dark Matter particles:” Adrian Ferent “Ferent time-dependent equation for Dark Matter particles:” Adrian Ferent “Ferent Particles are Faster Than Light” Adrian Ferent Conservation of Energy The law of conservation of energy states that the total energy of an isolated system cannot change in time. Planck energy is nature’s maximum allowed matter energy for point-energy (quanta). During the Big Bang this means: “The Ferent energy at Ferent wall, is equal with the Planck energy.” Adrian Ferent From here I calculated the speed of Ferent Particles! The speed of the Ferent Particles: The speed of Ferent Particles vp , where a=a/2π Ferent constant a = 1.590511178×10^(-76) J•s From this equation the speed of Ferent Particle is vp = 1.001762 × 10^17 m/s much faster than the speed of light! This vp = 1.001762 × 10^17m/s is closed to the speed of light squared (3 × 10^8)^2 m/s! “The speed of Dark Photons is vp = 1.001762 × 10^17 m/s” Adrian Ferent You learned from your professors, from your books that nothing can travel faster than light. My Gravitation theory explains: “The Gravitons and the Dark Photons are faster than light” Adrian Ferent “Dark Energy is Gravitons” Adrian Ferent My quantum gravity theory shows that the Gravitons and the Dark Photons are too small to be detected by today’s technology. In my Gravitation theory Einstein’s gravitational waves do not exist. “Einstein’s gravitational waves do not exist, how they can detect them?” Adrian Ferent 70. I am the first who discovered Dark Photon energy: E = a × f 71. I am the first who discovered the momentum operator for Dark Matter particles: 72. I am the first who discovered the total energy operator for Dark Matter particles: ” 73. I am the first who discovered the Ferent time-dependent equation for Dark Matter Particles: 74. I am the first who discovered that the Gravitons and the Dark Photons are faster than light. 75. I am the first who explained that Dark Matter is in my Gravitation theory, not in Einstein’s gravitation theory, String theory, LQG… 76. I am the first who explained that the primordial black holes in the early universe are Ferent matter 77. I am the first who explained that the Ferent energy at Ferent wall, is equal with the Planck energy 78. I am the first who calculated the speed of Dark Photons: vp = 1.001762 × 10^17 m/s 79. I am the first who explained that because there are 2 walls, there are 2 subuniverses: Ferent universe and Planck universe
Category: Astrophysics

[19] viXra:1805.0402 [pdf] replaced on 2018-06-02 18:57:12

A Categorization and Analysis of the `constant Lagrangian' Fits of the Galaxy Rotation Curves of the Complete Sparc Database of 175 LTG Galaxies.

Authors: E.P.J. de Haas
Comments: 47 Pages.

In this paper I categorize and analyze the `constant Lagrangian' model fits I made of the complete SPARC database of 175 LTG galaxies. Of the 175 galaxies, 45 allowed a single fit rotation curve, so about 26 percent. Another 2 galaxies could almost be plotted on a single fit. Then 36 galaxies could be fitted really nice on crossing dual curves. The reason for the appearance of this dual curve, in its two versions, could be given and related to the galactic constitution and dynamics. Another 25 galaxies could be fitted on parallel transition dual curves. This appearance could also be related to galactic dynamics and galactic mass distribution. Then there were the 19 multiple fit, complex extended galaxies, the complexities of which could be analyzed on the basis of the 4 types of dual fits. In total 128 of the 175 galaxies could be fitted and analyzed very well to reasonably well within the error margins. That is a 73 percent positive rate. This result rules out stochastic coincidence as an explanation of those fits. In my opinion, the success of the `constant Lagrangian' approach indicates that the problem of the galaxy rotation curves, perceived as a virial theorem problem, can be solved solely on the basis of the Lagrangian formulation of the principle of conservation of energy, when applied to this domain existing in between Newton's and Einstein's theories of gravity.
Category: Astrophysics

[18] viXra:1805.0389 [pdf] submitted on 2018-05-22 08:20:13

Convincing Confirmation of Exclusive Model of the Proton Nikitin V.N., Nikitin I.v. in Atomic Measurement the Proton Can be Presented as a Positron Kernel with an Electron Shell.

Authors: Nikitin V.N., Nikitin I.V.
Comments: 1 Page.

In atomic measurement the proton can be presented as a positron kernel with an electron shell.
Category: Astrophysics

[17] viXra:1805.0373 [pdf] submitted on 2018-05-20 10:57:33

Island of Stellar Stability

Authors: Jeffrey Joseph Wolynski
Comments: 7 Pages. 1 graph

It is presented a graph where the radii and mass of over 200 stars is presented as an island of evolutionary stability. Stars that are stable and evolve normally becoming "planets" fit on this island. The stars move towards the origin, (0,0). The idea for this is from the isotope island of stability, where elements are stable, versus where they can fly apart during radioactive decay.
Category: Astrophysics

[16] viXra:1805.0342 [pdf] submitted on 2018-05-18 11:00:06

A `constant Lagrangian' Fit of the Galaxy Rotation Curves of the Complete Sparc Database of 175 Galaxies.

Authors: E.P.J. de Haas
Comments: 195 Pages.

In this paper I apply the `constant Lagrangian' model for galactic dynamics to the complete SPARC database of 175 galaxies. For twenty five percent, 43 out of 175, of the galaxies of the series, a single fit model already remains nicely within the error margins. Fifteen galaxies are more complicated and clearly need a threefold fit. One exceptional galaxy justified five fits. So 116 galaxies, 66 percent, have a dual fit. The multiple fit appears to follow the mass composition of galaxies as composed of a bulge, possibly a disk and mostly extended gas clouds. As in previous papers, I will first repeat a presentation of the `constant Lagrangian' approach. The original part of this paper is the fit of the complete set of the SPARC database and a first categorization of the result in single, dual, triple or multiple fit galaxies. Through the extensive database fit, the `constant Lagrangian' approach can be inverted from a deductive to an inductive result: huge stretches of all galaxies can be fitted on a constant Lagrangian curve, while remaining within the empirical margin of errors. This paper's galaxy fits prove this restricted claim beyond doubt. The issue then becomes to explain this empirical, inductive result.
Category: Astrophysics

[15] viXra:1805.0293 [pdf] replaced on 2018-05-17 13:06:49

What is the Space?

Authors: Michael Tzoumpas
Comments: 5 Pages.

By the unified theory of dynamic space has been there a forecast of the follow observation that, parallel moving photons of different frequency, reduce locally the cohesive pressure of space, resulting to move with different speeds. So, the photons with higher frequency slow down against parallel moving photons with lower frequency, as on delay in gamma rays from galaxy Markarian 501 was observed. This observation proves that space contains unseen forces, which are evident as deformations of space, such as in the above theory are described. Accordingly, for the great problem of Physics and Philosophy, "What is the space?", there is the answer-solution: "The dynamic space".
Category: Astrophysics

[14] viXra:1805.0272 [pdf] submitted on 2018-05-13 12:29:17

WASP-107b, a Star that Will Never Form Life

Authors: Jeffrey Joseph Wolynski
Comments: 2 Pages.

It is hypothesized that WASP-107b is a middle aged star that has fallen below the Taylor Threshold. Size is replace by mass of the WT Diagram on the Y-axis as well. Other atmospheric thresholds will need to be designed inside of the general theory.
Category: Astrophysics

[13] viXra:1805.0271 [pdf] submitted on 2018-05-13 13:36:04

Space Gardening

Authors: George Rajna
Comments: 25 Pages.

But NASA has decided that gardening in space will be crucial for the next generation of explorers, who need to feed themselves on missions to the Moon or Mars that may last months or years. [9] Astrophysicists at Frankfurt, the Max Planck Institute for Radio Astronomy in Bonn, and Nijmegen, collaborating in the project BlackHoleCam, answer this question by computing the first images of feeding non-Einsteinian black holes: it is presently hard to tell them apart from standard black holes. [8] Using data from the first-ever gravitational waves detected last year, along with a theoretical analysis, physicists have shown that gravitational waves may oscillate between two different forms called "g" and "f"-type gravitational waves. [7] Astronomy experiments could soon test an idea developed by Albert Einstein almost exactly a century ago, scientists say. [6] It's estimated that 27% of all the matter in the universe is invisible, while everything from PB&J sandwiches to quasars accounts for just 4.9%. But a new theory of gravity proposed by theoretical physicist Erik Verlinde of the University of Amsterdam found out a way to dispense with the pesky stuff. [5] The proposal by the trio though phrased in a way as to suggest it's a solution to the arrow of time problem, is not likely to be addressed as such by the physics community— it's more likely to be considered as yet another theory that works mathematically, yet still can't answer the basic question of what is time. [4] The Weak Interaction transforms an electric charge in the diffraction pattern from one side to the other side, causing an electric dipole momentum change, which violates the CP and Time reversal symmetry. The Neutrino Oscillation of the Weak Interaction shows that it is a General electric dipole change and it is possible to any other temperature dependent entropy and information changing diffraction pattern of atoms, molecules and even complicated biological living structures.
Category: Astrophysics

[12] viXra:1805.0264 [pdf] submitted on 2018-05-14 04:09:25

Dark Matter in Multiverse

Authors: George Rajna
Comments: 55 Pages.

A Multiverse—where our Universe is only one of many—might not be as inhospitable to life as previously thought, according to new research. [30] Astrophysicists from the University of Surrey and the University of Edinburgh have created a new method to measure the amount of dark matter at the centre of tiny "dwarf" galaxies. [29] A research team of multiple institutes, including the National Astronomical Observatory of Japan and University of Tokyo, released an unprecedentedly wide and sharp dark matter map based on the newly obtained imaging data by Hyper Suprime-Cam on the Subaru Telescope. [28] A signal caused by the very first stars to form in the universe has been picked up by a tiny but highly specialised radio telescope in the remote Western Australian desert. [27] This week, scientists from around the world who gathered at the University of California, Los Angeles, at the Dark Matter 2018 Symposium learned of new results in the search for evidence of the elusive material in Weakly Interacting Massive Particles (WIMPs) by the DarkSide-50 detector. [26] If they exist, axions, among the candidates for dark matter particles, could interact with the matter comprising the universe, but at a much weaker extent than previously theorized. New, rigorous constraints on the properties of axions have been proposed by an international team of scientists. [25] The intensive, worldwide search for dark matter, the missing mass in the universe, has so far failed to find an abundance of dark, massive stars or scads of strange new weakly interacting particles, but a new candidate is slowly gaining followers and observational support. [24] " We invoke a different theory, the self-interacting dark matter model or SIDM, to show that dark matter self-interactions thermalize the inner halo, which ties ordinary dark matter and dark matter distributions together so that they behave like a collective unit. " [23]
Category: Astrophysics

[11] viXra:1805.0253 [pdf] submitted on 2018-05-14 10:43:51

Laser Systems for Space

Authors: George Rajna
Comments: 20 Pages.

JOKARUS experiment on sounding rocket successfully completed. Corner stone for laser ranging measurements with the highest precision and precursor for optical satellite navigation systems. [13] Exploding stars lit the way for our understanding of the universe, but researchers are still in the dark about many of their features. [12] A team of scientists from Russia and China has developed a model explaining the nature of high-energy cosmic rays (CRs) in our galaxy. These CRs have energies exceeding those produced by supernova explosions by one or two orders of magnitude. [11] On August 14, 2017, a groundbreaking University of Maryland-designed cosmic ray detector will travel to the International Space Station (ISS) aboard the SpaceX-12 Commercial Resupply Service mission. [10] It was because of these characteristics that it was proposed to give this new class of variable stars the acronym BLAPS, i.e. Blue Large-Amplitude Pulsators. [9] Researchers at the University of Southampton have cast doubt over established explanations for certain behaviours in pulsars-highly magnetised rotating neutron stars, formed from the remains of supernovae. [8] Installed on the International Space Station, by mid-July it will commence its scientific work – to study the exotic astrophysical objects known as neutron stars and examine whether they could be used as deep-space navigation beacons for future generations of spacecraft. [7] NASA's Chandra X-ray Observatory has discovered the first direct evidence for a superfluid, a bizarre, friction-free state of matter, at the core of a neutron star. Superfluids created in laboratories on Earth exhibit remarkable properties, such as the ability to climb upward and escape airtight containers. The finding has important implications for understanding nuclear interactions in matter at the highest known densities. [6] This paper explains the Accelerating Universe, the Special and General Relativity from the observed effects of the accelerating electrons, causing naturally the experienced changes of the electric field potential along the moving electric charges. The accelerating electrons explain not only the Maxwell Equations and the Special Relativity, but the Heisenberg Uncertainty Relation, the wave particle duality and the electron's spin also, building the bridge between the Classical and Relativistic Quantum Theories. The Big Bang caused acceleration created the radial currents of the matter and since the matter composed of negative and positive charges, these currents are creating magnetic field and attracting forces between the parallel moving electric currents. This is the gravitational force experienced by the matter, and also the mass is result of the electromagnetic forces between the charged particles. The positive and negative charged currents attracts each other or by the magnetic forces or by the much stronger electrostatic forces. The gravitational force attracting the matter, causing concentration of the matter in a small space and leaving much space with low matter concentration: dark matter and energy.
Category: Astrophysics

[10] viXra:1805.0224 [pdf] submitted on 2018-05-12 04:01:53

Binaries Detectable by LISA

Authors: George Rajna
Comments: 21 Pages.

The historic first detection of gravitational waves from colliding black holes far outside our galaxy opened a new window to understanding the universe. [8] Using data from the first-ever gravitational waves detected last year, along with a theoretical analysis, physicists have shown that gravitational waves may oscillate between two different forms called "g" and "f"-type gravitational waves. [7] Astronomy experiments could soon test an idea developed by Albert Einstein almost exactly a century ago, scientists say. [6] It's estimated that 27% of all the matter in the universe is invisible, while everything from PB&J sandwiches to quasars accounts for just 4.9%. But a new theory of gravity proposed by theoretical physicist Erik Verlinde of the University of Amsterdam found out a way to dispense with the pesky stuff. [5] The proposal by the trio though phrased in a way as to suggest it's a solution to the arrow of time problem, is not likely to be addressed as such by the physics community— it's more likely to be considered as yet another theory that works mathematically, yet still can't answer the basic question of what is time. [4] The Weak Interaction transforms an electric charge in the diffraction pattern from one side to the other side, causing an electric dipole momentum change, which violates the CP and Time reversal symmetry. The Neutrino Oscillation of the Weak Interaction shows that it is a General electric dipole change and it is possible to any other temperature dependent entropy and information changing diffraction pattern of atoms, molecules and even complicated biological living structures.
Category: Astrophysics

[9] viXra:1805.0180 [pdf] submitted on 2018-05-10 01:09:25

ФИЗИЧЕСКАЯ ИЛЛЮЗИЯ ЧИСЛА ПИ Никитин В.Н., Никитин И.В. Гипотезы, исключающие возможность физического существования числа Пи.

Authors: Nikitin V.N., Nikitin I.V.
Comments: 1 Page.

Гипотезы, исключающие возможность физического существования числа Пи.
Category: Astrophysics

[8] viXra:1805.0178 [pdf] submitted on 2018-05-08 05:21:44

To and Fro Nikitin V.N., Nikitin I.v. in the Present We Observe a Projection of Surrounding Space on an Information Field of Earth.

Authors: Nikitin V.N., Nikitin I.V.
Comments: 1 Page.

In the present we observe a projection of surrounding space on an information field of Earth.
Category: Astrophysics

[7] viXra:1805.0168 [pdf] submitted on 2018-05-08 10:35:45

A `constant Lagrangian' Fit of the Galaxy Rotation Curves of the `F-Series' from the Sparc Database.

Authors: E.P.J. de Haas
Comments: 31 Pages.

In this paper I apply the `constant Lagrangian' model for galactic dynamics to the F-series of the SPARC database. I will fit the experimental rotation curves of the $16$ `F' galaxies from this database using the dual fit approach. This means that one fit is made for the stars dominated region of one galaxy. Another fit is added for the gas dominated region of the same galaxy. The dual fit approach results in a rotation curve fit that mostly remains within the observational error margins. For some galaxies of the series a single model already remains nicely within the error margins and then doesn't really justify a dual fit. Some galaxies are more complicated and problably need a threefold fit. This dual fit approach follows the mass composition of galaxies as composed of a bulge, possibly a disk and mostly extended gas clouds.
Category: Astrophysics

[6] viXra:1805.0164 [pdf] submitted on 2018-05-08 15:00:29

Percentage Ratios for Life in Stellar Metamorphosis

Authors: Barrington Taylor, Jeffrey Wolynski
Comments: 3 Pages.

The time scales and percentage rates involved in stellar evolution cannot be emphasized enough. Explanation to show this is provided.
Category: Astrophysics

[5] viXra:1805.0145 [pdf] submitted on 2018-05-07 10:34:33

Most Sensitive Dark Matter Experiments

Authors: George Rajna
Comments: 58 Pages.

The U.S. Department of Energy has approved funding and start of construction for the SuperCDMS SNOLAB experiment, which will begin operations in the early 2020s to hunt for hypothetical dark matter particles called weakly interacting massive particles, or WIMPs. [32] Thanks to low-noise superconducting quantum amplifiers invented at the University of California, Berkeley, physicists are now embarking on the most sensitive search yet for axions, one of today's top candidates for dark matter. [31] The Axion Dark Matter Experiment (ADMX) at the University of Washington in Seattle has finally reached the sensitivity needed to detect axions if they make up dark matter, physicists report today in Physical Review Letters. [30]
Category: Astrophysics

[4] viXra:1805.0081 [pdf] submitted on 2018-05-02 14:27:42

Solar Group Geometrical Structure

Authors: Gerges Francis Tawdrous
Comments: 70 Pages.

-The rate 1.0725 is found frequently between many solar planets orbital and internal distances (a constant rate) -I suggest this rate is found because of Lorentz Contraction Phenomenon i.e. -There's a difference in velocities = "light velocity" between 2 motions in the solar group (even if we can't measure or notice this velocities difference) i.e. There's More Than One Frame In The Solar Group This paper suggests a clear argument as following: 1.The solar group is created by light beams, but we see these light beams in different forms (as matters and distances) 2.We see the light as matter (Specifically, bright fringes produced by light coherence we see as matters, where dark fringes we see as distances) 3.We see bright fringes as matters because our mind works by light velocity (Mind Thinking Process), so the whole matter around us is found because of the human mind effect. 4.to enable us to see the sun rays, Earth has to move with light velocity relative to the sun, to create a difference in velocities = c velocity 5.So, the sun creation depends on the difference in Earth and Sun motions = c velocity. 6.That's why Lorentz contraction phenomenon is seen in the solar orbital and internal distances, specifically with the constant rate = 1.0725, (which equals 7.25%), where the sun obliquity to ecliptic (7.25 degrees). 7.means, the sun creation process contains Lorentz Phenomenon Effect on the solar orbital and internal distances (and on many other values) 8.The Distance can be defined as "A Form Of Energy", which is proved by the moon orbit regression yearly 19 degrees (Metonic Cycle) (otherwise how distance can move?) (that supports the claim that, distances are dark fringes produced by light coherence) This Paper Consists Of 2 Parts 1st Part : Theory Of Matter Creation 2nd Part : Application on the theory (the solar group creation from the light) Starting From The Solar Group First Energy Explaining The Energy Coherence (light coherence) Discovering The Matter Creation Providing The Solar Group Motions Harmony Reasons
Category: Astrophysics

[3] viXra:1805.0056 [pdf] submitted on 2018-05-03 10:30:34

Secrets of Dense Nuclear Matter

Authors: George Rajna
Comments: 22 Pages.

New insights into the properties of neutron stars have come from two independent analyses of gravitational waves from the GW170817 neutron-star merger. [8] Using data from the first-ever gravitational waves detected last year, along with a theoretical analysis, physicists have shown that gravitational waves may oscillate between two different forms called "g" and "f"-type gravitational waves. [7] Astronomy experiments could soon test an idea developed by Albert Einstein almost exactly a century ago, scientists say. [6] It's estimated that 27% of all the matter in the universe is invisible, while everything from PB&J sandwiches to quasars accounts for just 4.9%. But a new theory of gravity proposed by theoretical physicist Erik Verlinde of the University of Amsterdam found out a way to dispense with the pesky stuff. [5] The proposal by the trio though phrased in a way as to suggest it's a solution to the arrow of time problem, is not likely to be addressed as such by the physics community— it's more likely to be considered as yet another theory that works mathematically, yet still can't answer the basic question of what is time. [4] The Weak Interaction transforms an electric charge in the diffraction pattern from one side to the other side, causing an electric dipole momentum change, which violates the CP and Time reversal symmetry. The Neutrino Oscillation of the Weak Interaction shows that it is a General electric dipole change and it is possible to any other temperature dependent entropy and information changing diffraction pattern of atoms, molecules and even complicated biological living structures.
Category: Astrophysics

[2] viXra:1805.0049 [pdf] submitted on 2018-05-01 09:21:31

A New Vision of Our Universe.

Authors: Durgadas Datta.
Comments: 7 Pages. A new vision in modern physics.

A new vision beyond standard model to understand our universe.
Category: Astrophysics

[1] viXra:1805.0047 [pdf] submitted on 2018-05-01 11:27:05

A Stars-Gas Dual Fit Result in the `constant Lagrangian' Model for Galactic Dynamics When Applied to the Sparc Database

Authors: E.P.J. de Haas
Comments: 41 Pages.

In this paper I apply the `constant Lagrangian' model for galactic dynamics to a subset of the SPARC database. I will fit $25$ galaxies from this database using the dual fit approach. This means that one fit is made for the stars dominated region of one galaxy. Another fit is added for the gas dominated region of the same galaxy. Both are presented in one single graph. The switch from stars dominated to gas dominated is sometimes visible as a ``wiggle'' in the total rotation velocity, as for exampe in the rotation curve of NGC 1560. I will demonstrate that this more or less visible``wiggle'' is part of the rotation velocity curve of almost every galaxy in the sample. The dual fit approach results in a rotation curve fit that mostly remains within the observational error margins.
Category: Astrophysics