Astrophysics

1808 Submissions

[19] viXra:1808.0258 [pdf] submitted on 2018-08-18 05:47:25

New Telescope for Dark Energy

Authors: George Rajna
Comments: 20 Pages.

It's an interferometer array that will be made up of 1024 6-metre dishes. Interferometer arrays are really cool because they combine signals from many telescopes to provide the resolution of a larger telescope. [19] According to a new study, they could also potentially detect dark matter, if dark matter is composed of a particular kind of particle called a "dark photon." [18] A global team of scientists, including two University of Mississippi physicists, has found that the same instruments used in the historic discovery of gravitational waves caused by colliding black holes could help unlock the secrets of dark matter, a mysterious and as-yet-unobserved component of the universe. [17] The lack of so-called " dark photons " in electron-positron collision data rules out scenarios in which these hypothetical particles explain the muon's magnetic moment. [16] By reproducing the complexity of the cosmos through unprecedented simulations, a new study highlights the importance of the possible behaviour of very high-energy photons. In their journey through intergalactic magnetic fields, such photons could be transformed into axions and thus avoid being absorbed. [15] Scientists have detected a mysterious X-ray signal that could be caused by dark matter streaming out of our Sun's core. Hidden photons are predicted in some extensions of the Standard Model of particle physics, and unlike WIMPs they would interact electromagnetically with normal matter. In particle physics and astrophysics, weakly interacting massive particles, or WIMPs, are among the leading hypothetical particle physics candidates for dark matter. 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

[18] viXra:1808.0257 [pdf] submitted on 2018-08-18 06:36:20

Impossibility of the Existence of Black-Holes in Nature

Authors: Gokaran Shukla
Comments: 2 Pages.

Existence of the Black-holes are the direct threat to the Pauli exclusion principle and Bragg’s diffraction condition. In this paper we will show that there will “never” be Black-holes in nature, otherwise Pauli exclusion principle and Bragg’s diffraction condition (indirectly whole quantum mechanics) will break down!
Category: Astrophysics

[17] viXra:1808.0241 [pdf] submitted on 2018-08-18 04:48:49

Pairing Properties of Nuclei

Authors: George Rajna
Comments: 30 Pages.

A team of Ohio University nuclear physicists has proposed a new theoretical model for calculating pairing properties of atomic nuclei including those found in extreme astrophysical environments. [28] In nature, the nuclear reactions that form stars are often accompanied by astronomically high amounts of energy, sometimes over billions of years. [27] Dark matter halos are theoretical bodies inside which galaxies are suspended; the halo's mass dominates the total mass. [26] An international team of researchers extended their results from a previous study to directly measure the cosmic-ray all-electron (electron + positron) spectrum in an energy range from 11 GeV to 4.8 TeV with the Calorimetric Electron Telescope (CALET). [25] Mysterious radiation emitted from distant corners of the galaxy could finally be explained with efforts to recreate a unique state of matter that blinked into existence in the first moments after the Big Bang. [24] Researchers at Oregon State University have confirmed that last fall's union of two neutron stars did in fact cause a short gamma-ray burst. [23] Quark matter – an extremely dense phase of matter made up of subatomic particles called quarks – may exist at the heart of neutron stars. [22] 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]
Category: Astrophysics

[16] viXra:1808.0234 [pdf] submitted on 2018-08-16 09:03:49

Dark Matter Search with Gravitational Wave Detectors

Authors: George Rajna
Comments: 18 Pages.

According to a new study, they could also potentially detect dark matter, if dark matter is composed of a particular kind of particle called a "dark photon." [18] A global team of scientists, including two University of Mississippi physicists, has found that the same instruments used in the historic discovery of gravitational waves caused by colliding black holes could help unlock the secrets of dark matter, a mysterious and as-yet-unobserved component of the universe. [17] The lack of so-called " dark photons " in electron-positron collision data rules out scenarios in which these hypothetical particles explain the muon's magnetic moment. [16] By reproducing the complexity of the cosmos through unprecedented simulations, a new study highlights the importance of the possible behaviour of very high-energy photons. In their journey through intergalactic magnetic fields, such photons could be transformed into axions and thus avoid being absorbed. [15] Scientists have detected a mysterious X-ray signal that could be caused by dark matter streaming out of our Sun's core. Hidden photons are predicted in some extensions of the Standard Model of particle physics, and unlike WIMPs they would interact electromagnetically with normal matter. In particle physics and astrophysics, weakly interacting massive particles, or WIMPs, are among the leading hypothetical particle physics candidates for dark matter. 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

[15] viXra:1808.0212 [pdf] submitted on 2018-08-15 09:13:56

Neutron Stars Answer Neutron Puzzle

Authors: George Rajna
Comments: 60 Pages.

Free neutrons decay in about 900 s but, bound in nuclei, they are stable and make up somewhat more than half the mass of the visible universe." [34] The occasional decay of neutrons into dark matter particles could solve a long-standing discrepancy in neutron decay experiments. [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] 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] Now our new study – which hints that extremely light particles called neutrinos are likely to make up some of the dark matter – challenges our current understanding of its composition. [29] A new particle detector design proposed at the) could greatly broaden the search for dark matter—which makes up 85 percent of the total mass of the universe yet we don't know what it's made of—into an unexplored realm. [28] University of Houston scientists are helping to develop a technology that could hold the key to unraveling one of the great mysteries of science: what constitutes dark matter? [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]
Category: Astrophysics

[14] viXra:1808.0183 [pdf] submitted on 2018-08-14 13:46:48

Beacon for Dark Matter

Authors: George Rajna
Comments: 61 Pages.

By measuring intracluster light, scientists could " perhaps learn something about the nature of dark matter, " says astrophysicist James Bullock of the University of California, Irvine, who was not involved with the research. [33] For almost 10 years, astronomers have been studying a mysterious diffuse radiation coming from the centre of our galaxy. [32] Deep beneath a mountain in the Apennine range in Italy, an intricate apparatus searches for the dark matter of the universe. [31] 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]
Category: Astrophysics

[13] viXra:1808.0182 [pdf] submitted on 2018-08-15 00:34:25

Kepler`s Laws After Simple Alteration Sectoral Speed and Replace the Orbital Velocity Another Measure

Authors: Oleg Tcherepanov
Comments: 3 Pages. Title of papir by rassian language:

The replacement of the sectorial velocity of the N-th planet of the Solar system by the ratio of the area within the orbit to the annual period estimated in solar days reveals that the obtained renormalization analogs of the area characteristics of the elliptical motions of the terrestrial planets have values close to integers. This allows us to introduce into astrophysics the concept of area-velocity, acceptable for a number of satellites of the Sun. In addition, the identical transformations of the formula of the third Kepler's law convince that in the system of two spheroids, for example, such as the Earth and the Moon, the mechanical motion in the form of quadra-velocity is divided between the components of the gravitational dipole inversely proportional to their masses. In this case, the scalar area-and quadra-velocities of celestial spheroids do not obey the сhrono-geometric metrology of astronomical observations. Background and applications of non-standard metrology of observed movements are presented in detail in the monograph ISBN 978-3-659-60213-9 (Palmarium Academic Publishing).
Category: Astrophysics

[12] viXra:1808.0159 [pdf] submitted on 2018-08-14 03:52:51

Protons Influence Neutron Stars

Authors: George Rajna
Comments: 25 Pages.

A new study in Nature, co-led by MIT researchers, suggests that some properties of neutron stars may be influenced not only by their multitude of densely packed neutrons, but also by a substantially smaller fraction of protons—positively charged particles that make up just 5 percent of a neutron star. [23] Quark matter – an extremely dense phase of matter made up of subatomic particles called quarks – may exist at the heart of neutron stars. [22] 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]
Category: Astrophysics

[11] viXra:1808.0148 [pdf] submitted on 2018-08-11 05:23:00

Mysterious X-ray Source

Authors: George Rajna
Comments: 30 Pages.

An enigmatic X-ray source revealed as part of a data-mining project for high-school students shows unexplored avenues hidden in the vast archive of ESA's XMM-Newton X-ray Observatory. [17] There's nothing quite like an ice cream on a hot day, and eating it before it melts too much is part of the fun. [16] Studying the fleeting actions of electrons in organic materials will now be much easier, thanks to a new method for generating fast X-rays. [15] In a laboratory at the University of Rochester, researchers are using lasers to change the surface of metals in incredible ways, such as making them super water-repellent without the use of special coatings, paints, or solvents. [14]
Category: Astrophysics

[10] viXra:1808.0094 [pdf] submitted on 2018-08-07 10:18:51

Big Improvement at Nuclear Astrophysics

Authors: George Rajna
Comments: 30 Pages.

In nature, the nuclear reactions that form stars are often accompanied by astronomically high amounts of energy, sometimes over billions of years. [27] Dark matter halos are theoretical bodies inside which galaxies are suspended; the halo's mass dominates the total mass. [26] An international team of researchers extended their results from a previous study to directly measure the cosmic-ray all-electron (electron + positron) spectrum in an energy range from 11 GeV to 4.8 TeV with the Calorimetric Electron Telescope (CALET). [25] Mysterious radiation emitted from distant corners of the galaxy could finally be explained with efforts to recreate a unique state of matter that blinked into existence in the first moments after the Big Bang. [24] Researchers at Oregon State University have confirmed that last fall's union of two neutron stars did in fact cause a short gamma-ray burst. [23] Quark matter – an extremely dense phase of matter made up of subatomic particles called quarks – may exist at the heart of neutron stars. [22] 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]
Category: Astrophysics

[9] viXra:1808.0093 [pdf] submitted on 2018-08-07 10:48:32

Complex Dust Behavior in Plasmas

Authors: George Rajna
Comments: 31 Pages.

400 kilometers above Earth, researchers examined waves in complex plasma under microgravity conditions and found that the microparticles behaved in nonuniform ways in the presence of varying electrical fields. [28] In nature, the nuclear reactions that form stars are often accompanied by astronomically high amounts of energy, sometimes over billions of years. [27] Dark matter halos are theoretical bodies inside which galaxies are suspended; the halo's mass dominates the total mass. [26] An international team of researchers extended their results from a previous study to directly measure the cosmic-ray all-electron (electron + positron) spectrum in an energy range from 11 GeV to 4.8 TeV with the Calorimetric Electron Telescope (CALET). [25] Mysterious radiation emitted from distant corners of the galaxy could finally be explained with efforts to recreate a unique state of matter that blinked into existence in the first moments after the Big Bang. [24] Researchers at Oregon State University have confirmed that last fall's union of two neutron stars did in fact cause a short gamma-ray burst. [23] Quark matter – an extremely dense phase of matter made up of subatomic particles called quarks – may exist at the heart of neutron stars. [22] 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]
Category: Astrophysics

[8] viXra:1808.0081 [pdf] submitted on 2018-08-06 12:04:52

The Solar Group is One Machine (Proves)

Authors: Gerges Francis Tawdrous
Comments: 11 Pages.

The Solar group is one machine each planet should be considered as a gear in this same machine The Planet matter and orbital distance are created together from the same energy, so both of them are players in the solar group geometrical structure and motions i.e. The Matter is Energy (E=mc2) The Distance is Energy (Hypothesis) The Solar group is created from one energy. This same energy created the planets matters and their orbital distances to guarantee the solar group general harmony. This paper provides the proves for this claim
Category: Astrophysics

[7] viXra:1808.0080 [pdf] submitted on 2018-08-06 12:59:59

Galactic Centre Dark Matter

Authors: George Rajna
Comments: 59 Pages.

For almost 10 years, astronomers have been studying a mysterious diffuse radiation coming from the centre of our galaxy. [32] Deep beneath a mountain in the Apennine range in Italy, an intricate apparatus searches for the dark matter of the universe. [31] 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

[6] viXra:1808.0077 [pdf] submitted on 2018-08-06 17:24:29

The WASP-12 Polymorphic System

Authors: Jeffrey Joseph Wolynski
Comments: 2 Pages.

I place the polymorphic system WASP-12 on the Wolynski-Taylor Diagram according to stellar metamorphosis. We can see that WASP-12b's proximity to its host will rip it apart quite quickly leaving a small moon-like object that will never form life. It will eventually resemble something like Io if it does not escape its annihilation orbit or AO path.
Category: Astrophysics

[5] viXra:1808.0055 [pdf] submitted on 2018-08-04 09:42:05

Saturn on the Wolynski-Taylor Diagram

Authors: Jeffrey Joseph Wolynski
Comments: 2 Pages.

Saturn is placed on the Wolynski-Taylor diagram. Explanation is provided of why it is placed at its specific location.
Category: Astrophysics

[4] viXra:1808.0052 [pdf] submitted on 2018-08-04 13:07:56

The Polymorphic System HD 10180 on the Wolynski-Taylor Diagram

Authors: Jeffrey Joseph Wolynski
Comments: 3 Pages.

I place the polymorphic system HD 10180 on the Wolynski-Taylor Diagram. Using this information we can imagine what these systems are, versus what the dogma thinks they are.
Category: Astrophysics

[3] viXra:1808.0041 [pdf] submitted on 2018-08-02 07:46:34

The Moon on the Wolynski-Taylor Diagram

Authors: Jeffrey Joseph Wolynski
Comments: 2 Pages.

The Moon is placed on the Wolynski-Taylor Diagram. It should be noticed that it is a dead moon, an ancient star vastly older than the Earth and literally all of the larger objects in the solar system.
Category: Astrophysics

[2] viXra:1808.0027 [pdf] submitted on 2018-08-03 07:20:14

Invisible Dark Matter

Authors: George Rajna
Comments: 57 Pages.

Deep beneath a mountain in the Apennine range in Italy, an intricate apparatus searches for the dark matter of the universe. [31] 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
Category: Astrophysics

[1] viXra:1808.0012 [pdf] submitted on 2018-08-01 12:40:00

Solar Planet Gravity Equation

Authors: Gerges Francis Tawdrous
Comments: 3 Pages.

The Planet Gravity = (Earth Diameter / The Planet Diameter)2 x ((The Planet Mass/ The Earth Mass) x Earth Gravity
Category: Astrophysics