Lifeboat Foundation

Two things capture your attention in this spectacular Picture of the Week, which was taken using Hubble’s Wide Field Camera 3 (WFC3): the two enormous galaxies that flank the left and right sides of the image. The galaxy on the left is a lenticular galaxy, which rejoices in the name of 2MASX J03193743+4137580. The side-on spiral galaxy on the right is more simply named UGC 2665. Both galaxies lie approximately 350 million light-years from Earth, and they both form part of the enormous Perseus galaxy cluster.

Perseus is an important figure in Greek mythology, renowned for slaying Medusa the Gorgon — who is herself famous for the unhappy reason that she was cursed to have living snakes for hair. Given Perseus’s impressive credentials, it seems appropriate that the eponymous galaxy cluster is one of the biggest objects in the known Universe, consisting of thousands of galaxies, only a few of which are visible in this image.

The wonderful detail in the image is thanks to the WFC3’s powerful resolution and high sensitivity. The WFC3 is sensitive to both visible and infrared light, so those are the wavelengths that are captured in this image. The Perseus supercluster looks very different at other wavelengths. Whilst in this image the spaces between the galaxies appear dark and peaceful, when the X-ray emission is observed the Perseus cluster appears to be burning with bright intense light.

Robots have a hard time improvising, and encountering an unusual surface or obstacle usually means an abrupt stop or hard fall. But researchers have created a new model for robotic locomotion that adapts in real time to any terrain it encounters, changing its gait on the fly to keep trucking when it hits sand, rocks, stairs and other sudden changes.

Although robotic movement can be versatile and exact, and robots can “learn” to climb steps, cross broken terrain and so on, these behaviors are more like individual trained skills that the robot switches between. Although robots like Spot famously can spring back from being pushed or kicked, the system is really just working to correct a physical anomaly while pursuing an unchanged policy of walking. There are some adaptive movement models, but some are very specific (for instance this one based on real insect movements) and others take long enough to work that the robot will certainly have fallen by the time they take effect.

The team, from Facebook AI, UC Berkeley and Carnegie Mellon University, call it Rapid Motor Adaptation. It came from the fact that humans and other animals are able to quickly, effectively and unconsciously change the way they walk to fit different circumstances.

Circa 2017 angel particle still found.

New evidence by Stanford and University of California researchers supports a 1937 theory that some particles can be their own antiparticles.

Circa 2020 o.o…

Google’s Sycamore used to be the world’s fastest quantum computer on the planet, with 54 cubits of quantum computational power. Google declared Quantum Supremacy with Sycamore in October 2019 by running a calculation in 200s that would have taken the world’s fastest supercomputer 10000 years the execute. (in case you’re wondering; Quantum Supremacy is when a quantum computer can complete a task that no supercomputer could achieve.)

The research team at the University of Science and Technology of China ran a similar simulated comparison to its quantum calculation. China’s top quantum computer, dubbed Jiuzhang, completed a calculation in 3 minutes that would have taken TaihuLight, the country’s fastest supercomputer, and third fastest in the world, 2 billion years to complete.

Continue reading “China’s new Quantum tech is 100 trillion times faster than Google’s” »

Zoledronate is a biophosphonate, a drug used to strengthen bones and reduce the risk of osteoporosis-related bone fractures. It is well-absorbed into the bones, so it only needs to be administered through infusion once a year.

A 2010 study had found that people who were given zoledronate after experiencing hip fractures showed slightly reduced all-cause mortality compared to a control group. Patients who took the drug were at significantly lower risk for heart arrhythmias and pneumonia.

As this is a drug that is already being given to people, the choice to go back to genetically modified fruit flies, a much simpler model of aging, may seem counterintuitive. The team chose to test these insects for two principal reasons. The first is that Drosophila flies are a common subject of studies on basic aging pathways, which the researchers wished to explore. The second is simpler: Drosophila flies lack bones, making the bone-affecting properties of zoledronate irrelevant to the study.

The smart farm: To show just how much these technologies could help farmers, CSU and Food Agility have partnered to create the Global Digital Farm (GDF).

The smart farm will be built at CSU’s Wagga Wagga campus, and it will feature autonomous tractors, harvesters, and other farming robots, as well as AI programs designed to help with farm management and more.

Teachable moments: The plan isn’t for the GDF to simply demonstrate what a smart farm can look like — CSU and Food Agility want to use it to teach Australia’s farmers how to take advantage of all the tech that will be on display.

Scientists at KAIST have fabricated a laser system that generates highly interactive quantum particles at room temperature. Their findings, published in the journal Nature Photonics, could lead to a single microcavity laser system that requires lower threshold energy as its energy loss increases.

The system, developed by KAIST physicist Yong-Hoon Cho and colleagues, involves shining light through a single hexagonal-shaped microcavity treated with a loss-modulated silicon nitride substrate. The system design leads to the generation of a polariton laser at room temperature, which is exciting because this usually requires cryogenic temperatures.

The researchers found another unique and counter-intuitive feature of this design. Normally, energy is lost during laser operation. But in this system, as energy loss increased, the amount of energy needed to induce lasing decreased. Exploiting this phenomenon could lead to the development of high efficiency, low threshold lasers for future quantum optical devices.

The spooky-looking amphibian is less scary than it appears to be. But it might already be endangered, as deforestation rates continue to go up.

Researchers tested a four-legged robot on sand, oil, rocks and other tricky surfaces.