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Archive for the ‘nuclear energy’ category: Page 110

Mar 11, 2019

Researchers turn liquid metal into a plasma

Posted by in categories: nuclear energy, particle physics, security

Scientists at the University of Rochester’s Laboratory for Laser Energetics have achieved a plasma research first. They were able to convert the liquid metal deuterium to the plasma state and directly observe the interaction threshold.


For the first time, researchers at the University of Rochester’s Laboratory for Laser Energetics (LLE) have found a way to turn a liquid metal into a plasma and to observe the temperature where a liquid under high-density conditions crosses over to a plasma state. Their observations, published in Physical Review Letters, have implications for better understanding stars and planets and could aid in the realization of controlled nuclear fusion — a promising alternative energy source whose realization has eluded scientists for decades. The research is supported by the US Department of Energy and the National Nuclear Security Administration.

What is a Plasma?

Plasmas consist of a hot soup of free moving electrons and ions — atoms that have lost their electrons — that easily conducts electricity. Although plasmas are not common naturally on Earth, they comprise most of the matter in the observable universe, such as the surface of the sun. Scientists are able to generate artificial plasmas here on Earth, typically by heating a gas to thousands of degrees Fahrenheit, which strips the atoms of their electrons. On a smaller scale, this is the same process that allows plasma TVs and neon signs to “glow”: electricity excites the atoms of a neon gas, causing neon to enter a plasma state and emit photons of light.

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Mar 9, 2019

CERN Creates Antimatter to Answer Fundamental Question of Universe

Posted by in categories: cosmology, nuclear energy, particle physics

The concept of antimatter has delighted sci-fi fans for years, but it also poses a real question for physicists. Mathematically speaking, it makes sense that for every type of particle in our universe there exists a corresponding antiparticle which is the same but with the opposite charge — so to correspond with the electron, for example, there should be an antielectron, also known as a positron. When antimatter and matter come into contact, they both destroy each other in a flash of energy.

When the Big Bang happened, it should have created equal amounts of both matter and antimatter. And yet matter is everywhere and there is hardly any antimatter in our universe today. Why is that?

A new experiment from CERN, the European Organization for Nuclear Research, has been tackling the question by looking at how matter and antimatter could react differently to Earth’s gravitational field. Physicists think that antimatter could fall at a different rate than matter, which would help to explain why it is less prevalent. But in order to test this, they need to create antimatter particles such as positronium atoms. These are pairs of one electron and one positron, but they only live for a fraction of a second — 142 nanoseconds to be exact — so there isn’t enough time to perform experiments on them.

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Mar 3, 2019

This young nuclear engineer has a new plan for clean energy

Posted by in categories: climatology, nuclear energy, sustainability

Leslie Dewan wants to revive technology from the 1960s to solve the problem of climate change today.

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Mar 1, 2019

Check Out This Incredible X-Ray ‘Superbubble’ That’s Nearly 5,000 Light-Years Wide

Posted by in categories: cosmology, nuclear energy

This incredible image shows a pair of “nuclear superbubbles,” one over 4,900 light-years across and the other over 3,500 light-years. They’re emanating from the center of the galaxy NGC 3079, likely the result of a central black hole consuming matter and spewing it back out.

Or, the superbubbles could be from a starburst, a faster-than-usual stellar birth. The bubble-like shape could come from shock waves and compression within the cooler gas. But there’s still an element of mystery here, as the smaller bubble seems to be emanating synchrotron emission, or high-energy x-rays from spiraling electrons, while the larger bubble isn’t.

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Feb 21, 2019

VASIMR plasma engine: Earth to Mars in 39 days?

Posted by in categories: nuclear energy, space travel

Circa 2017


“We’re likely to find hydrogen pretty much anywhere we go in the Solar System,” he said.

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Feb 20, 2019

Tennessee Teen Builds Working Nuclear Fusion Reactor at Home

Posted by in category: nuclear energy

A Tennessee teen has become the youngest person in America—and possibly the world—to build a working nuclear reactor and achieve fusion.

Jackson Oswalt, now 14, set out on the ambitious project when he was just 12, according to USA Today, and achieved nuclear fusion in his Memphis home just hours before he turned 13 on Jan. 19, 2018.

“A couple of years back, all I did was play video games,” he told the news outlet. “And I decided I didn’t want to spend all my life doing video games.”

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Feb 18, 2019

Radiation-eating bacteria could make nuclear waste safer

Posted by in categories: biological, food, nuclear energy

Circa 2017


Microbes can thrive on radioactive waste products and make them less likely to leak out of underground respositories.

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Feb 18, 2019

Experts: United States Should Build a Prototype Fusion Power Plant

Posted by in categories: biotech/medical, engineering, nuclear energy

The United States should devote substantially more resources to nuclear fusion research and build an ambitious prototype fusion power plant, according to a new report.

The report is the work of the National Academies of Sciences, Engineering, and Medicine. Its conclusion: it’s more important than ever for the U.S. and the world to explore roads to practical fusion power.

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Feb 16, 2019

China made an artificial star that’s 6 times as hot as the sun, and it could be the future of energy

Posted by in categories: nuclear energy, particle physics, solar power, sustainability

Imagine if we could replace fossil fuels with our very own stars. And no, we’re not talking about solar power: We’re talking nuclear fusion. And recent research is helping us get there. Meet the Experimental Advanced Superconducting Tokamak, or EAST.

EAST is a fusion reactor based in Hefei, China. And it can now reach temperatures more than six times as hot as the sun. Let’s take a look at what’s happening inside. Fusion occurs when two lightweight atoms combine into a single, larger one, releasing energy in the process. It sounds simple enough, but it’s not easy to pull off. Because those two atoms share a positive charge. And just like two opposing magnets, those positive atoms repel each other.

Stars, like our sun, have a great way of overcoming this repulsion … their massive size, which creates a tremendous amount of pressure in their cores … So the atoms are forced closer together making them more likely to collide. There’s just one problem: We don’t have the technology to recreate that kind of pressure on Earth.

Continue reading “China made an artificial star that’s 6 times as hot as the sun, and it could be the future of energy” »

Feb 13, 2019

NASA’s New Nuclear Reactor Could Change Space Exploration

Posted by in categories: nuclear energy, space travel

NASA and engineers from the Department of Energy are developing small nuclear reactors that could power spacecraft and space colonies.

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