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Puzzling Gamma-Rays from the Sun

by Dr. Amira Val Baker, Resonance Science Foundation Astrophysicist

Gamma-rays have been observed emanating from the solar poles at a higher rate than expected.

Gamma-rays are the highest observed energy of electromagnetic radiation and are typically produced in energy transitions in atomic nuclei. Similar to photons of light being emitted as electrons reconfigure in atoms, photons of light are released in the reconfiguration of nuclei in an atomic nucleus, albeit at a much higher energy range!

Our star – the Sun – is a hot rotating ball of plasma continuously emitting radiation at a broad range of energies, from radio to gamma-rays.

Energy generation is greatest in the centre of the Sun, decreasing radially outward.

High energy radiation, such as gamma-rays, are thus thought to be due to the bombardment of the solar atmosphere by high velocity protons – hadronic cosmic rays. However, as the gamma-rays from such an interaction are assumed to be absorbed long before...

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Study Reveals Electromagnetic Properties of the Great Pyramid of Giza

archeology science news Aug 01, 2018
By Resonance Science Foundation

There has been a number of recent scientific discoveries about the Great Pyramids of Giza using technologically advanced methods. For instance, a methodology that utilizes measurements in the variation of flux from cosmic muons (heavy cousins of the electron)—called archaeological muography—detected  evidence for a possible second entrance and hidden corridor in the Great Pyramid of Giza (the largest of the Pyramids of Giza). As well, thermal imaging have revealed perplexing thermal anomalies in the Great Pyramid. Several explanations were put forward to explain the cause of the anomalies, but one particularly suggestive explanation was that it is due to increased air circulation caused by a hidden corridor or chamber -- corroborating similar findings using muonic radiographic analysis.

In a recent study it has been reported in the Journal of Applied Physics that the Great Pyramids are able to focus electromagnetic energy,...

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Spiders Can Fly Thousands of Miles With Electric Power

biophysics science news Jul 06, 2018
By: Becky Ferreira

On Halloween in 1832, the naturalist Charles Darwin was onboard the HMS Beagle. He marveled at spiders that had landed on the ship after floating across huge ocean distances. “I caught some of the Aeronaut spiders which must have come at least 60 miles,” he noted in his diary. “How inexplicable is the cause which induces these small insects, as it now appears in both hemispheres, to undertake their aerial excursions.”

Small spiders achieve flight by aiming their butts at the sky and releasing tendrils of silk to generate lift. Darwin thought that electricity might be involved when he noticed that spider silk stands seemed to repel each other with electrostatic force, but many scientists assumed that the arachnids, known as “ballooning” spiders, were simply sailing on the wind like a paraglider. The wind power explanation has thus far been unable to account for observations of spiders rapidly launching into the...

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Speculative Wormhole Echoes Could Revolutionize Astrophysics

astrophysics science news Jun 12, 2018
by Resonance Science Foundation

The scientific collaborations LIGO and Virgo have detected gravitational waves from the fusion of two black holes, inaugurating a new era in the study of the cosmos. But what if those ripples of space-time were not produced by black holes, but by other exotic objects? A team of European physicists suggest an alternative—wormholes that can be traversed to appear in another universe.

Scientists have deduced the existence of black holes from a multitude of experiments, theoretical models and indirect observations such as the recent LIGO detections, which are believed to originate from the collision of two of these dark gravitational monsters.

But there is a problem with black holes—they present an edge, called an event horizon, from which nothing can escape. This is in conflict with quantum mechanics, whose postulates ensure that information is always preserved, not lost.

One of the theoretical ways to deal with this conflict...

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Astrophysics Gets Turned On Its Head: Black Holes Come First

Article by William Brown and Dr. Amira Val Baker, Resonance Science Foundation Research Scientists
Supermassive black holes observed for the first time at the earliest epoch of star and galaxy formation are indicating that black holes form first and guide the later accretion and structuring of stars and galaxies

For decades physicist Nassim Haramein has been expounding a controversial idea in astrophysics—that structures from elementary particles to galaxies and the universe itself are the result of infinitely curved spacetime geometries, popularly known as black holes. In essence, this means that all the stuff we think of as material, physical objects in fact only appear substantive because of the geometry and torque of spacetime in these regions. As Charles Misner and John Wheeler stated it:

There is nothing in the world except empty curved space. Matter, charge, electromagnetism, and other fields are only manifestations of the bending of space. Physics is...

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3D Map of The Milky Way Questions Our Understanding of Expansion

By Dr. Amira Val Baker, Resonance Science Foundation Astrophysicist

The biggest map of our galaxy just got revealed and it confirms the intriguing discrepancy in the value of the Hubble constant, further questioning our understanding of the expanding Universe.

Hubble’s constant – which is essentially a measure of the speed of the expanding universe – is determined by two different methods. One method looks at the early universe through the observation of the Cosmic Microwave Background (CMB) and the other method looks at the local universe through the light emitted by Cepheid variables.

In a recent news post, we described how Nobel laureate Adam Reiss and his team at the Space Telescope Science Institute determined a value for the Hubble constant 9% higher than that found by the CMB method. This value was found to an improved accuracy compared to previous studies and thus brings into question the reason for such a discrepancy.

Now with the help of Gaia, the...

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Tetrahedral Geometry of Water Found to Account for it’s Remarkable Properties

biophysics science news Mar 28, 2018
By Resonance Science Foundation

Water-like anomalies as a function of tetrahedrality

Water is the most common and yet least understood material on Earth. Despite its simplicity, water tends to form tetrahedral order locally by directional hydrogen bonding. This structuring is known to be responsible for a vast array of unusual properties, e.g., the density maximum at 4 C, which play a fundamental role in countless natural and technological processes, with the Earth’s climate being one of the most important examples. By systematically tuning the degree of tetrahedrality, we succeed in continuously interpolating between water-like behavior and simple liquid-like behavior. Our approach reveals what physical factors make water so anomalous and special even compared with other tetrahedral liquids. ---John Russo,Kenji Akahane, and Hajime Tanaka. Water-like anomalies as a function of tetrahedrality. PNAS, March 26, 2018.

The properties of water have fascinated scientists for...

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Improved Accuracy on Hubble Constant Suggests New Physics

astrophysics science news Mar 02, 2018
By Resonance Science Foundation Research Team

The accuracy of the Hubble constant has been a topic of debate since its discovery in the 1920’s. When an agreement seemed to be finally on the horizon a new measuring technique showed a discrepancy and now that discrepancy has just been verified to even more accuracy.

The Hubble constant was discovered by Edwin Hubble in 1929 through his observational studies of the recession velocities of galaxies. Hubble found that the recession velocity of galaxies increased with increasing distance at a proportional rate, now known as the Hubble constant.

The Hubble constant has since been measured with varying degrees of accuracy from 500km/s/Mpc to 100 km/s/Mpc until finally agreeing on ~70 km/s/Mpc. However, the alternative method for measuring the Hubble constant – from the cosmic microwave background (CMB) – yields a slightly lower number. This discrepancy has now been confirmed with even greater accuracy by Nobel...

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Egyptian Stone Predates the Sun

By Dr. Amira Val Baker, Resonance Science Foundation Astrophysicist

Recent analysis of a stone found in the Libyan Desert Glass area of southwest Egypt, has sparked debate and a rethink of the current consensus on the formation of the solar system.

In a study, due to be published next month, a team of international researchers announced the resulting analysis of a stone that was subsequently named Hypatia after the ancient female astronomer of Alexandria.

Utilizing techniques from electron scanning microscopy, to proton induce X-ray emission and micro-Raman spectroscopy – the results revealed compounds not found anywhere on our planet, solar system or any known meteorite. As well, a lack of silicates was found which sets it apart from interplanetary dust particles and all known cometary material. Previous analysis of noble gas and nitrogen isotope studies suggest an extraterrestrial origin, which along with these new results strongly suggests a pre-solar origin and could...

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Graphene could contain an unlimited “clean” energy source

by Olivier Alirol, Resonance Science Foundation Research Scientist

Stochastic processes are ubiquitous in nature. Also known as random processes, they can take multiple forms like a random walk, or a game of chance. Their studies have played a pivotal role in the development of modern physics starting with Langevin and the Brownian motion well illustrated by pollen grain floating in water. Recent advances in measurement precision and resolution have extended the framework of Brownian motion to unprecedented space-time scales and to a wider variety of systems, including atomic diffusion in optical lattices and spin diffusion in liquids. Studies of such systems are providing insights into the mechanisms and interactions responsible for stochasticity.

For example, membrane fluctuations are also a purview of Brownian motion. Where it becomes really interesting is when properly understood, the random membrane fluctuations can be usefully exploited for energy harvesting. From a stochastic...

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