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Archive for the ‘nuclear energy’ category: Page 11

Jun 9, 2024

Tony Seba’s Prediction: Nuclear Obsolete by 2030 — Wind, Solar, and Battery Storage the Future

Posted by in categories: futurism, nuclear energy

Small modular nuclear reactors are too expensive, too slow, and too risky, and the focus should be on wind, solar, and battery storage for energy needs Questions to inspire discussion What did Tony Seba predict about nuclear power in 2014? —Tony Seba predicted in 2014 that nuclear power would be obsolete by 2030, and recent research has shown that his predictions about the cost blowouts and inefficiency of small modular nuclear reactors were accurate.

Jun 7, 2024

Photon Polarization: The Next Breakthrough in Fusion Technology?

Posted by in categories: nuclear energy, space

New studies show photon polarization is constant in varying environments, potentially improving plasma heating methods for fusion energy advancement.

Light, both literally and figuratively, pervades our world. It eliminates darkness, conveys telecommunications signals across continents, and reveals the unseen, from distant galaxies to microscopic bacteria. Light can also help heat the plasma within ring-shaped devices known as tokamaks as scientists work to leverage the fusion process to produce green electricity.

Recently, researchers from Princeton Plasma Physics Laboratory have discovered that one of the fundamental properties of photons—polarization—is topological, meaning it remains constant even as the photon transitions through various materials and environments. These findings, published in Physical Review D, could lead to more effective plasma heating techniques and advancements in fusion research.

Jun 7, 2024

An ‘artificial sun’ achieved a record-breaking fusion experiment, bringing us closer to clean, limitless energy

Posted by in category: nuclear energy

WEST, a fusion reactor in France, broke a record for tungsten tokamaks with a 6-minute plasma. It’s an important step toward clean, limitless energy.

May 31, 2024

Researchers Visualize Energetic Ion Flow in Fusion Devices

Posted by in category: nuclear energy

For the first time, scientists successfully track energetic ion flow through space and energy driven by electromagnetic waves in fusion plasmas.

May 27, 2024

New tech cuts 80% of highly radioactive waste in nuclear power plants

Posted by in categories: nuclear energy, particle physics

Swiss company Transmutex will use particle-accelerator technology to make uranium that produces less nuclear waste when used in fission reactions.

May 27, 2024

AI-Powered Fusion: The Key to Limitless Clean Energy

Posted by in categories: nuclear energy, particle physics, robotics/AI

Researchers at the Princeton Plasma Physics Laboratory are harnessing artificial intelligence and machine learning to enhance fusion energy production, tackling the challenge of controlling plasma reactions. Their innovations include optimizing the design and operation of containment vessels and using AI to predict and manage instabilities, significantly improving the safety and efficiency of fusion reactions. This technology has been successfully applied in tokamak reactors, advancing the field towards viable commercial fusion energy. Credit: SciTechDaily.com.

The intricate dance of atoms fusing and releasing energy has fascinated scientists for decades. Now, human ingenuity and artificial intelligence are coming together at the U.S. Department of Energy’s (DOE) Princeton Plasma Physics Laboratory (PPPL) to solve one of humankind’s most pressing issues: generating clean, reliable energy from fusing plasma.

Unlike traditional computer code, machine learning — a type of artificially intelligent software — isn’t simply a list of instructions. Machine learning is software that can analyze data, infer relationships between features, learn from this new knowledge, and adapt. PPPL researchers believe this ability to learn and adapt could improve their control over fusion reactions in various ways. This includes perfecting the design of vessels surrounding the super-hot plasma, optimizing heating methods, and maintaining stable control of the reaction for increasingly long periods.

May 26, 2024

World’s 1st nuclear fusion-powered electric propulsion drive unveiled

Posted by in categories: nuclear energy, space travel

A concept that began as a doodle at a conference years ago is now becoming a reality.

RocketStar Inc. has showcased its advanced nuclear-based propulsion technology called the FireStar Drive.

It is said to be the world’s first electric device for spacecraft propulsion boosted by nuclear fusion.

May 23, 2024

Scientists use rare metal to set new record in effort to produce limitless energy: ‘It was a pretty remarkable result’

Posted by in category: nuclear energy

I found this on NewsBreak.


In a record-breaking feat, scientists injected over a billion joules of energy to sustain a nuclear fusion reaction for 6 minutes.

Continue reading “Scientists use rare metal to set new record in effort to produce limitless energy: ‘It was a pretty remarkable result’” »

May 19, 2024

Science Fiction Writer Predicted The Future

Posted by in categories: biotech/medical, employment, nuclear energy, robotics/AI, solar power, space travel

The transcript features an interview with renowned science fiction author Isaac Asimov, discussing his predictions and visions for the future of space exploration, computers, robotics, and humanity’s role in shaping that future. It touches on concepts like permanent space settlements, harnessing solar power, the increasing importance of computers and AI, the impacts of robotics on jobs, and taking an optimistic yet cautionary view of technological progress. It also covers some earlier inaccurate and exaggerated predictions about robots replacing humans, as well as actual technological developments in 1982 like artificial hearts and fusion reactors. The overall theme is Asimov’s hopeful but measured outlook on future scientific and technological advancements.

May 16, 2024

Researchers elucidate ultrafast laser-induced solid-to-overdense-plasma transitions

Posted by in categories: biotech/medical, nuclear energy

The interaction of solids with high-intensity ultra-short laser pulses has enabled major technological breakthroughs over the past half-century. On the one hand, laser ablation of solids offers micromachining and miniaturization of elements in medical or telecommunication devices. On the other hand, accelerated ion beams from solids using intense lasers may pave the way for new opportunities for cancer treatment with laser-based proton therapy, fusion energy research, and analysis of cultural heritage.

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