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Archive for the ‘particle physics’ category: Page 407

Mar 18, 2020

Russia’s Kilo-Class Submarines: “Black Holes” No Navy Wants to Fight

Posted by in categories: cosmology, particle physics, quantum physics

I think these can be fought with current technology such as quantum radar even other higher level technology. It can also be hacked with quantum radar or neutrino beams.


Know colloquially as the “Black Holes” by the U.S. Navy, the Improved-Kilo-class of submarines are quite deadly — and could turn the balance of power in the South China Sea in China’s favor.

Mar 17, 2020

Axions Would Solve Another Major Problem in Physics

Posted by in category: particle physics

:ooooooooo.


In a new paper, physicists argue that hypothetical particles called axions could explain why the universe isn’t empty.

Mar 16, 2020

Neutrinos shine new light on fusion reactions in the Sun

Posted by in category: particle physics

Borexino detector makes best-ever measurement of solar neutrino fluxes.

Mar 16, 2020

The golden age of neutron-star physics has arrived

Posted by in categories: particle physics, space

Astronomers know that much about how neutron stars are born. Yet exactly what happens afterwards, inside these ultra-dense cores, remains a mystery. Some researchers theorize that neutrons might dominate all the way down to the centre. Others hypothesize that the incredible pressure compacts the material into more exotic particles or states that squish and deform in unusual ways.

Now, after decades of speculation, researchers are getting closer to solving the enigma, in part thanks to an instrument on the International Space Station called the Neutron Star Interior Composition Explorer (NICER).


These stellar remnants are some of the Universe’s most enigmatic objects — and they are finally starting to give up their secrets.

Mar 14, 2020

We’re not saying Earth is doomed… but 139 minor planets were spotted at the outer reaches of our Solar System. Just an FYI, that’s all

Posted by in categories: particle physics, space, tractor beam

A simple tractor beam can pull them away like a higgs boson tractor beam.


Too bad they are likely uninhabitable.

Mar 14, 2020

Ancient Supermassive Black Hole Has Its Particle Beam Aimed Right at Earth

Posted by in categories: cosmology, particle physics

Maybe could use a higgs field to deflect it or aim it away or use a higgs laser to destroy the black hole.


Astronomers have discovered the existence of a supermassive black hole that looks to be the oldest and most distant of its kind we’ve ever encountered – and it just happens to be aiming its bright particle beam directly at Earth.

The newly found supermassive black hole – called PSO J030947.49+271757.31 – is the most distant blazar ever observed, researchers say. That conclusion is based on the wavelength signature of the object’s redshift, a phenomenon scientists can use to measure the distance of light-emitting sources in space.

Continue reading “Ancient Supermassive Black Hole Has Its Particle Beam Aimed Right at Earth” »

Mar 13, 2020

Initialization of quantum simulators

Posted by in categories: biological, particle physics, quantum physics

Simulating computationally complex many-body problems on a quantum simulator has great potential to deliver insights into physical, chemical and biological systems. Physicists had previously implemented Hamiltonian dynamics but the problem of initiating quantum simulators to a suitable quantum state remains unsolved. In a new report on Science Advances, Meghana Raghunandan and a research team at the institute for theoretical physics, QUEST institute and the Institute for quantum optics in Germany demonstrated a new approach. While the initialization protocol developed in the work was largely independent of the physical realization of the simulation device, the team provided an example of implementing a trapped ion quantum simulator.

Quantum simulation is an emergent technology aimed at solving important open problems relative to high-temperature superconductivity, interacting quantum field theories or many-body localization. A series of experiments have already demonstrated the successful implementation of Hamiltonian dynamics within a quantum simulator—however, the approach can become challenging across quantum phase transitions. In the new strategy, Raghunandan et al. overcame this problem by building on recent advances in the use of dissipative quantum systems to engineer interesting many-body states.

Almost all many-body Hamiltonians of interest remain outside a previously investigated class and therefore require generalization of the dissipative state preparation procedure. The research team therefore presented a previously unexplored paradigm for the dissipative initialization of a quantum simulator by coupling the many-body system performing the quantum simulation to a dissipatively driven auxiliary particle. They chose the energy splitting within the auxiliary particle to become resonant with the many-body excitation gap of the system of interest; described as the difference of the ground-state energy and the energy of the first excited state. During such conditions of resonance, the energy of the quantum simulator could be transferred efficiently to the auxiliary particle for the former to be cooled sympathetically, i.e., particles of one type, cooled particles of another type.

Mar 13, 2020

Invisible plastics in water

Posted by in categories: engineering, nanotechnology, particle physics

A Washington State University research team has found that nanoscale particles of the most commonly used plastics tend to move through the water supply, especially in fresh water, or settle out in wastewater treatment plants, where they end up as sludge, in landfills, and often as fertilizer.

Neither scenario is good.

“We are drinking lots of plastics,” said Indranil Chowdhury, an assistant professor in WSU’s Department of Civil and Environmental Engineering, who led the research. “We are drinking almost a few grams of plastics every month or so. That is concerning because you don’t know what will happen after 20 years.”

Mar 13, 2020

Quantum computing breakthrough in atom control found

Posted by in categories: computing, particle physics, quantum physics

A team of scientists in Australia claim to have stumbled on a breakthrough discovery that will have “major implications” for the future of quantum computing.

Describing the find as a “happy accident,” engineers at the University of New South Wales Sydney found a way to control the nucleus of an atom using electric fields rather than magnetic fields—which they have claimed could now open up a “treasure trove of discoveries and applications.”

Mar 13, 2020

Physicists use extreme infrared laser pulses to reveal frozen electron waves in magnetite

Posted by in categories: materials, particle physics

Magnetite is the oldest magnetic material known to humans, yet researchers are still mystified by certain aspects of its properties.

For example, when the temperature is lowered below 125 kelvins, changes from a metal to an insulator, its atoms shift to a new lattice structure, and its charges form a complicated ordered pattern. This extraordinarily complex phase transformation, which was discovered in the 1940s and is known as the Verwey transition, was the first metal-insulator transition ever observed. For decades, researchers have not understood exactly how this phase transformation was happening.

According to a paper published March 9 in Nature Physics, an international team of experimental and theoretical researchers discovered fingerprints of the quasiparticles that drive the Verwey transition in magnetite. Using an , the researchers were able to confirm the existence of peculiar electronic waves that are frozen at the and start “dancing together” in a collective oscillating motion as the temperature is lowered.