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Archive for the ‘physics’ category: Page 100

Mar 3, 2023

Time travel might be possible using spinning lasers, according to a physicist

Posted by in categories: physics, time travel

Physicist Ronald Mallett believes that a spinning laser loop can bend time, leading to time travel. He even has a prototype to test the idea.

Ronald Mallett is on a mission to develop a real-life working time machine.

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Mar 3, 2023

NASA Prepares To “Take the Plunge” and Explore Venus With DAVINCI

Posted by in categories: government, physics, space

Inspired by the Renaissance vision of Leonardo da Vinci, NASA

Established in 1958, the National Aeronautics and Space Administration (NASA) is an independent agency of the United States Federal Government that succeeded the National Advisory Committee for Aeronautics (NACA). It is responsible for the civilian space program, as well as aeronautics and aerospace research. Its vision is “To discover and expand knowledge for the benefit of humanity.” Its core values are “safety, integrity, teamwork, excellence, and inclusion.” NASA conducts research, develops technology and launches missions to explore and study Earth, the solar system, and the universe beyond. It also works to advance the state of knowledge in a wide range of scientific fields, including Earth and space science, planetary science, astrophysics, and heliophysics, and it collaborates with private companies and international partners to achieve its goals.

Mar 2, 2023

US-Japan team hails H2-boron plasma fusion breakthrough

Posted by in categories: nuclear energy, physics

An innovative nuclear fusion technology that uses no radioactive materials and is calculated capable of “powering the planet for more than 100,000 years”, has been successfully piloted by a US-Japanese team of researchers.

California-based TAE Technologies, working with Japan’s National Institute for Fusion Science (NIFS), have completed first tests of a hydrogen-boron fuel cycle in magnetically-confined plasma, which could generate cleaner, lower cost energy that that produced by the more common deuterium-tritium (D-T) fusion process.

“This experiment offers us a wealth of data to work with and shows that hydrogen-boron has a place in utility-scale fusion power. We know we can solve the physics challenge at hand and deliver a transformational new form of carbon-free energy to the world that relies on this non-radioactive, abundant fuel,” said Michl Binderbauer, CEO of TAE Technologies.

Mar 1, 2023

Physics of Superpropulsion: Super-Fast Sharpshooter Insect Urination Using a “Butt Flicker”

Posted by in categories: biological, chemistry, engineering, physics

Tiny insects known as sharpshooters excrete by catapulting urine drops at incredible accelerations. Their excretion is the first example of superpropulsion discovered in a biological system.

Saad Bhamla was in his backyard when he noticed something he had never seen before: an insect urinating. Although nearly impossible to see, the insect formed an almost perfectly round droplet on its tail and then launched it away so quickly that it seemed to disappear. The tiny insect relieved itself repeatedly for hours.

Continue reading “Physics of Superpropulsion: Super-Fast Sharpshooter Insect Urination Using a ‘Butt Flicker’” »

Mar 1, 2023

Astrophysicists discover the most unusual ultracool dwarf binary system

Posted by in category: physics

The two stars take about 20.5 hours to revolve around each other.

Astrophysicists of the University of California San Diego (UC San Diego) and Northwestern University have discovered the most compact ultracool dwarf binary system known to date using W. M. Keck Observatory on Maunakea, Hawaii Island.

Named LP 413-53AB, this newly discovered system comprises two ultracool dwarfs, the category of stars which are extremely low in mass and emit light mainly in the infrared because of their low temperature.

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Feb 28, 2023

Super-fast insect urination powered by the physics of superpropulsion

Posted by in categories: chemistry, engineering, physics

Saad Bhamla was in his backyard when he noticed something he had never seen before: an insect urinating. Although nearly impossible to see, the insect formed an almost perfectly round droplet on its tail and then launched it away so quickly that it seemed to disappear. The tiny insect relieved itself repeatedly for hours.

It’s generally taken for granted that what goes in must come out, so when it comes to fluid dynamics in animals, the research is largely focused on feeding rather than excretion. But Bhamla, an assistant professor in the School of Chemical and Biomolecular Engineering at the Georgia Institute of Technology, had a hunch that what he saw wasn’t trivial.

“Little is known about the fluid dynamics of excretion, despite its impact on the morphology, energetics, and behavior of animals,” Bhamla said. “We wanted to see if this tiny insect had come up with any clever engineering or physics innovations in order to pee this way.”

Feb 28, 2023

The Nobel Prize in Physics 1930

Posted by in category: physics

Died: 21 November 1970, Bangalore, India.

Affiliation at the time of the award: Calcutta University, Calcutta, India.

Prize motivation: “for his work on the scattering of light and for the discovery of the effect named after him”

Feb 28, 2023

First Law of Thermodynamics Breakthrough Could Upend a Century of Equilibrium Theory in Physics

Posted by in categories: energy, physics, space

Physicists in West Virginia have announced a potential breakthrough that could help upend a longstanding constraint imposed by the first law of thermodynamics.

The discovery, involving how energy is converted in plasmas in space, was described in new research published in the journal Physical Review Letters, and could potentially require scientists to have to rethink how plasmas are heated both in the lab and in space.

The first law of thermodynamics, an expression of the law of conservation of energy albeit styled with relation to thermodynamic processes, conveys that the total energy within a system will remain constant, but that it can be converted from one form of energy into another. More simply, the idea is commonly expressed as “energy can neither be created or destroyed.”

Feb 27, 2023

Shape-shifting experiment challenges interpretation of how cadmium nuclei move

Posted by in category: physics

Atomic nuclei take a range of shapes, from spherical (like a basketball) to deformed (like an American football). Spherical nuclei are often described by the motion of a small fraction of the protons and neutrons, while deformed nuclei tend to rotate as a collective whole.

A third kind of motion has been proposed since the 1950s. In this motion, known as nuclear vibration, fluctuate about an average shape. Scientists recently investigated cadmium-106 using a technique called Coulomb excitation to probe its . They found clear experimental evidence that the vibrational description fails for this isotope’s nucleus. This finding is counter to the expected results.

Research published in Physics Letters B builds on a long quest to understand the transition between spherical and deformed . This transition often includes vibrational motion as an intermediate step. The new result suggests that may need to revise the long-standing paradigm describing how this transition occurs.

Feb 27, 2023

Researchers realize non-Hermitian exceptional points in degenerate optical cavity

Posted by in categories: energy, physics, space

Recently, a research team led by Prof. Guo Guangcan from the University of Science and Technology of China (USTC) constructed a non-Hermiticity (NH) synthetic orbital angular momentum (OAM) dimension in a degenerate optical cavity and observed the exceptional points (EPs). This study was published in Science Advances.

In topological physics, the NH systems depict open systems with complex spectra. Exceptional points are one of the unique features of NH systems. To study EPs, the team had constructed synthetic one-dimensional lattices and established topological simulation platform in a degenerate optical cavity. Based on this platform, an additional pseudomomentum was introduced as a parameter to construct the Dirac point in the two-dimensional momentum space. A pair of EPs can be obtained by introducing non-Hermitian perturbation around the Dirac point.

The detection of complex energy spectra in NH systems can be troublesome for traditional means. The research group developed a method which is referred to as wave front angle–resolved band structure spectroscopy to investigate complex energy spectra based on synthetic OAM. Using this method, the team not only detected EPs in momentum space, but also the key features of EPs like bulk Fermi arcs, parity-time symmetry-breaking transition, energy swapping and half-integer band windings.

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