Menu

Blog

Page 7340

Jul 17, 2020

New cobalt-free lithium-ion battery reduces costs without sacrificing performance

Posted by in category: energy

Researchers at the University of Texas at Austin have demonstrated a cobalt-free, high-energy, lithium-ion battery.

Jul 17, 2020

Metal eating bacteria accidentally discovered by scientists

Posted by in categories: chemistry, food

California (CNN) (07/17/20) — Scientists have discovered a type of bacteria that eats and gets its calories from metal, after suspecting they exist for more than a hundred years but never proving it.

Now microbiologists from the California Institute of Technology (or Caltech) accidentally discovered the bacteria after performing unrelated experiments using a chalk-like type of manganese, a commonly found chemical element.

Dr. Jared Leadbetter, professor of environmental microbiology at Caltech in Pasadena, left a glass jar covered with the substance to soak in tap water in his office sink, and left the vessel for several months when he went to work off campus.

Jul 17, 2020

MIT “Light Squeezer” Reduces Quantum Noise in Lasers, Enhances Quantum Computing and Gravitational-Wave Detection

Posted by in categories: computing, quantum physics

Portable System Boosts Laser Precision, at Room Temperature

Physicists at MIT have designed a quantum “light squeezer” that reduces quantum noise in an incoming laser beam by 15 percent. It is the first system of its kind to work at room temperature, making it amenable to a compact, portable setup that may be added to high-precision experiments to improve laser measurements where quantum noise is a limiting factor.

The heart of the new squeezer is a marble-sized optical cavity, housed in a vacuum chamber and containing two mirrors, one of which is smaller than the diameter of a human hair. The larger mirror stands stationary while the other is movable, suspended by a spring-like cantilever.

Jul 17, 2020

Rsearchers suggest modification of quantum encryption system with compact detector

Posted by in categories: encryption, finance, military, quantum physics

A new system can significantly lower the production costs costs of mass quantum key distribution (QKD) networks, which will make them available to a wider user audience. This will make it possible to use QDK in the regular fiber-optic cable infrastructure. The paper was published in Scientific Reports.

Many have heard about quantum key distribution (QKD), which is also sometimes referred to as quantum encryption. Today, this is one of the safest ways to encode information that can then be used by major banks, military and governmental organizations. In a QDK system, the information is transmitted by quantum radiation, which is extremely hard for eavesdroppers to intercept.

“As a rule, QKD uses a weak laser light with an average number of photons less than unity,” explains Eduard Samsonov, a research associate at ITMO’s Faculty of Photonics and Optical Information. “This light has fundamental special features, the so-called quantum effects that leave no chance for a third party to infiltrate the channel to read the information without being noticed.”

Jul 17, 2020

Geologists Say a New Ocean Is Opening up in Africa

Posted by in category: futurism

In somewhere between five and ten million years, the tectonic plates that form Africa are likely to rip apart so much that it’ll eventually split the continent in two.

Within Ethiopia’s Afar region, the Arabian, Nubian, and Somali tectonic plates are slowly pulling away from each other, NBC News reports, gradually creating a vast rift slowly forming a new ocean.

“We can see that oceanic crust is starting to form, because it’s distinctly different from continental crust in its composition and density,” University of Leeds Ph.D. student Christopher Moore told NBC.

Jul 17, 2020

Dogs may use Earth’s magnetic field to take shortcuts

Posted by in category: futurism

GPS-equipped hunting dogs take a curious north-south jog, which seems to help them get their bearings.

Jul 17, 2020

Sperm discovery reveals clue to genetic ‘immortality’

Posted by in categories: biotech/medical, genetics, life extension

New insights into an elusive process that protects developing sperm cells from damage in growing embryos, sheds light on how genetic information passes down, uninterrupted, through generations.

The study identified a protein, known as SPOCD1, which plays a key role in protecting the early-stage precursors to sperm, known as , from damage in a developing embryo.

During their development, germ cells undergo a reprogramming process that leaves them vulnerable to rogue genes, known as jumping genes, which can damage their DNA and lead to infertility.

Jul 17, 2020

What if the speed of light were that of a cyclist?

Posted by in category: physics

A new paper revives a hero from physics’s past.

Science & technology Jul 18th 2020 edition.

Jul 17, 2020

Molecular ‘tails’ are secret ingredient for gene activation

Posted by in categories: biotech/medical, genetics

It might seem as though humans have little in common with the lowly yeast cell. Humans have hair, skin, muscles, and bones, among other attributes. Yeast have, well, none of those things.

But besides their obvious differences, yeast and humans, and much of life for that matter, have a great deal in common, especially at the cellular level. One of these commonalities is the our cells use to make RNA copies of sections of our DNA. The enzyme slides along a strand of DNA that has been unpacked from the chromosome in which it resides, to “read” the genetic code, and then assembles an RNA strand that contains the same code. This copying process, known as transcription, is what happens at a when a gene is activated in an organism. The enzyme responsible for it, RNA polymerase, is found in all (cells with a nucleus) and it is essentially the same in all of them, whether the cells are from a redwood, an earthworm, a caribou, or a mushroom.

That fact has presented a mystery for scientists, though: Although the DNA in a yeast cell is different in many ways from the DNA in a human cell, the same enzyme is able to work with both. Now, a team of Caltech researchers has discovered one way this happens.

Jul 17, 2020

More Details On NASA’s VERITAS Mission, Which Could Go to Venus

Posted by in categories: alien life, engineering, satellites

Venus has always been a bit of the odd stepchild in the solar system. It’s similarities to Earth are uncanny: roughly the same size, mass, and distance from the sun. But the development paths the two planets ended up taking were very different, with one being the birthplace of all life as we know it, and the other becoming a cloud-covered, highly pressurized version of hell. That cloud cover, which is partially made up of sulfuric acid, has also given the planet an air of mystery. So much so that astronomers in the early 20th century speculated that there could be dinosaurs roaming about on the surface.

Some of that mystery will melt away if a team from NASA’s Jet Propulsion Laboratory gets a chance to launch their newest idea for a mission to the planet, the Venus Emissivity, Radio Science, InSAR, Topograph, and Spectroscopy (or VERITAS) mission.

Continue reading “More Details On NASA’s VERITAS Mission, Which Could Go to Venus” »