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Categories: Energy: Nuclear

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Energy: Nuclear
Published

Better simulations of neutron scattering      (via sciencedaily.com) 

Tripoli-4® is a tool used by researchers to simulate the behaviors of interacting neutrons in 3D space. Recently, researchers have developed eTLE: a next-event simulator which aims to increase Tripoli-4®'s precision using Monte Carlo simulations. New research implements and validates eTLE's reliability.

Chemistry: Inorganic Chemistry Energy: Nuclear Physics: General Physics: Quantum Computing Physics: Quantum Physics
Published

Hitting nuclei with light may create fluid primordial matter      (via sciencedaily.com) 

A new analysis supports the idea that photons colliding with heavy ions create a fluid of 'strongly interacting' particles. The results indicate that photon-heavy ion collisions can create a strongly interacting fluid that responds to the initial collision geometry and that these collisions can form a quark-gluon plasma. These findings will help guide future experiments at the planned Electron-Ion Collider.

Energy: Nuclear Physics: General Physics: Quantum Physics
Published

Clear sign that quark-gluon plasma production 'turns off' at low energy      (via sciencedaily.com) 

Physicists report new evidence that production of an exotic state of matter in collisions of gold nuclei at the Relativistic Heavy Ion Collider (RHIC) can be 'turned off' by lowering the collision energy. The findings will help physicists map out the conditions of temperature and density under which the exotic matter, known as a quark-gluon plasma (QGP), can exist and identify key features of the phases of nuclear matter.

Energy: Nuclear Physics: General
Published

Scientists identify new mechanism of corrosion      (via sciencedaily.com) 

It started with a mystery: How did molten salt breach its metal container? Understanding the behavior of molten salt, a proposed coolant for next-generation nuclear reactors and fusion power, is a question of critical safety for advanced energy production. The multi-institutional research team, co-led by Penn State, initially imaged a cross-section of the sealed container, finding no clear pathway for the salt appearing on the outside. The researchers then used electron tomography, a 3D imaging technique, to reveal the tiniest of connected passages linking two sides of the solid container. That finding only led to more questions for the team investigating the strange phenomenon.

Energy: Nuclear
Published

New superalloy could cut carbon emissions from power plants      (via sciencedaily.com) 

Researchers have shown that a new 3D-printed superalloy could help power plants generate more electricity while producing less carbon.

Computer Science: Quantum Computers Energy: Nuclear Physics: Optics Physics: Quantum Computing Physics: Quantum Physics
Published

Engineers discover a new way to control atomic nuclei as 'qubits'      (via sciencedaily.com) 

Researchers propose a new approach to making qubits, the basic units in quantum computing, and controlling them to read and write data. The method is based on measuring and controlling the spins of atomic nuclei, using beams of light from two lasers of slightly different colors.

Energy: Nuclear Physics: Quantum Physics
Published

Amplified search for new forces      (via sciencedaily.com) 

In the search for new forces and interactions beyond the Standard Model, an international team of researchers has now taken a good step forward. The researchers are using an amplification technique based on nuclear magnetic resonance. They use their experimental setup to study a particular exotic interaction between spins: a parity-violating interaction mediated by a new hypothetical exchange particle, called a Z' boson, which exists in addition to the Z boson mediating the weak interaction in the standard Model.

Energy: Nuclear Physics: Quantum Physics
Published

'Ghostly' neutrinos provide new path to study protons      (via sciencedaily.com) 

Scientists have discovered a new way to investigate the structure of protons using neutrinos, known as 'ghost particles.'

Computer Science: General Energy: Nuclear
Published

Color images from the shadow of a sample      (via sciencedaily.com) 

A research team has developed a new method to produce X-ray images in color. In the past, the only way to determine the chemical composition of a sample and the position of its components using X-ray fluorescence analysis was to focus the X-rays and scan the whole sample. This is time-consuming and expensive. Scientists have now developed an approach that allows an image of a large area to be produced from a single exposure, without the need for focusing and scanning.

Energy: Nuclear Engineering: Nanotechnology
Published

Researchers gain deeper understanding of mechanism behind superconductors      (via sciencedaily.com) 

Physicists have once again gained a deeper understanding of the mechanism behind superconductors. This brings researchers one step closer to their goal of developing the foundations for a theory for superconductors that would allow current to flow without resistance and without energy loss. The researchers found that in superconducting copper-oxygen bonds, called cuprates, there must be a very specific charge distribution between the copper and the oxygen, even under pressure.

Chemistry: Thermodynamics Energy: Nuclear
Published

Mitigating corrosion by liquid tin could lead to better cooling in fusion reactors      (via sciencedaily.com) 

Researchers have clarified the chemical compatibility between high temperature liquid metal tin (Sn) and reduced activation ferritic martensitic, a candidate structural material for fusion reactors. This discovery has paved the way for the development of a liquid metal tin divertor, which is an advanced heat-removal component of fusion reactors. A device called a divertor is installed in the fusion reactors to maintain the purity of the plasma. For divertors, there has been demand for liquid metals that can withstand extremely large heat loads from high-temperature plasma.

Energy: Nuclear
Published

National Ignition Facility achieves fusion ignition      (via sciencedaily.com) 

The U.S. Department of Energy (DOE) and DOE's National Nuclear Security Administration (NNSA) has announced the achievement of fusion ignition at Lawrence Livermore National Laboratory (LLNL) -- a major scientific breakthrough decades in the making. On Dec. 5, a team at LLNL's National Ignition Facility (NIF) conducted the first controlled fusion experiment in history to reach this milestone, also known as scientific energy breakeven, meaning it produced more energy from fusion than the laser energy used to drive it.

Computer Science: Quantum Computers Energy: Nuclear
Published

Quantum algorithm of the direct calculation of energy derivatives developed for molecular geometry optimization      (via sciencedaily.com) 

Researchers have successfully extended the quantum phase difference estimation algorithm, a general quantum algorithm for the direct calculations of energy gaps, to enable the direct calculation of energy differences between two different molecular geometries. This allows for the computation, based on the finite difference method, of energy derivatives with respect to nuclear coordinates in a single calculation.

Energy: Nuclear
Published

Small modular reactor waste analysis report      (via sciencedaily.com) 

Small modular nuclear reactors, which offer greater flexibility and lower upfront cost than large nuclear reactors, have both some advantages and disadvantages when it comes to nuclear waste generation.

Chemistry: Thermodynamics Energy: Nuclear Space: Structures and Features
Published

How does radiation travel through dense plasma?      (via sciencedaily.com) 

Researchers provide experimental data about how radiation travels through dense plasmas. Their data will improve plasma models, which allow scientists to better understand the evolution of stars and may aid in the realization of controlled nuclear fusion as an alternative energy source.

Energy: Nuclear
Published

How long can exotic nuclei survive at the edge of stability?      (via sciencedaily.com) 

A new study has measured how long it takes for several kinds of exotic nuclei to decay. The paper marks the first experimental result from the Facility for Rare Isotope Beams. It is just a small taste of what's to come at the facility, which will become 400 times more powerful over the coming years. Scientists used the facility to better understand nuclei, the collection of protons and neutrons found at the heart of atoms. Understanding these basic building blocks allows scientists to refine their best models and has applications in medicine, national security, and industry.

Energy: Nuclear
Published

Material separates heavy water from ordinary water      (via sciencedaily.com) 

A research group has made a material that can effectively separate heavy water from normal water at room temperature. Until now, this process has been very difficult and energy intensive. The findings have implications for industrial -- and even biological -- processes that involve using different forms of the same molecule.

Energy: Nuclear
Published

Physicists confirm hitch in proton structure      (via sciencedaily.com) 

A new precision measurement of the proton's electric polarizability has confirmed an unexplained bump in the data. The proton's electric polarizability shows how susceptible the proton is to deformation, or stretching, in an electric field. Like size or charge, the electric polarizability is a fundamental property of proton structure. The data bump was widely thought to be a fluke when seen in earlier measurements, so this new, more precise measurement confirms the presence of the anomaly and signals that an unknown facet of the strong force may be at work.

Energy: Nuclear
Published

Our brains use quantum computation      (via sciencedaily.com) 

A team of scientists believe our brains could use quantum computation, after adapting an idea developed to prove the existence of quantum gravity to explore the human brain and its workings. The brain functions measured were also correlated to short-term memory performance and conscious awareness, suggesting quantum processes are also part of cognitive and conscious brain functions. Quantum brain processes could explain why we can still outperform supercomputers when it comes to unforeseen circumstances, decision making, or learning something new, while the discovery may also shed light on consciousness, the workings of which remain scientifically difficult to understand and explain.

Energy: Nuclear
Published

Hackmanite mineral changes color also upon exposure to nuclear radiation      (via sciencedaily.com) 

Researchers have long studied the color-changing properties of the natural mineral hackmanite upon exposure to UV radiation or X-rays. Now, the research group studied the reactions of synthetic hackmanite to nuclear radiation. The researchers discovered a one-of-a-kind and novel intelligent quality, gamma exposure memory, which allows the use of hackmanite as e.g. radiation detector.