Scientists are counting atoms to figure out when Mars last had volcanoes

The SOFIA aircraft has returned to New Zealand for a final time ahead of the mission's conclusion later this year.

The Stratospheric Observatory for Infrared Astronomy (SOFIA) is a modified Boeing 747SP aircraft, designed to carry a 2.7-meter reflecting telescope into the stratosphere, above much of Earth's infrared-blocking atmosphere.

A collaboration between NASA and the German Aerospace Center (DLR), development began on the project in 1996. SOFIA saw first light in 2010 and achieved full operational capability in 2014. Its prime mission was completed in 2019 and earlier this year, it was decided that SOFIA would be grounded for budgetary reasons. Operations end "no later than" September 30, 2022, followed by an "orderly shutdown."

Engineers at the University of Pennsylvania say they've developed a photonic deep neural network processor capable of analyzing billions of images every second with high accuracy using the power of light.

It might sound like science fiction or some optical engineer's fever dream, but that's exactly what researchers at the American university's School of Engineering and Applied Sciences claim to have done in an article published in the journal Nature earlier this month.

The standalone light-driven chip – this isn't another PCIe accelerator or coprocessor – handles data by simulating brain neurons that have been trained to recognize specific patterns. This is useful for a variety of applications including object detection, facial recognition, and audio transcription to name just a few.

Video Robot boffins have revealed they've created a half-millimeter wide remote-controlled walking robot that resembles a crab, and hope it will one day perform tasks in tiny crevices.

In a paper published in the journal Science Robotics , the boffins said they had in mind applications like minimally invasive surgery or manipulation of cells or tissue in biological research.

With a round tick-like body and 10 protruding legs, the smaller-than-a-flea robot crab can bend, twist, crawl, walk, turn and even jump. The machines can move at an average speed of half their body length per second - a huge challenge at such a small scale, said the boffins.

Updated Intel and QuTech claim to have created the first silicon qubits for quantum logic gates to be made using the same manufacturing facilities that Intel employs to mass produce its processor chips.

The demonstration is described by the pair as a crucial step towards scaling to the thousands of qubits that are required for practical quantum computation.

According to Intel, its engineers working with scientists from QuTech have successfully created the first silicon qubits at scale at Intel's D1 manufacturing factory in Hillsboro, Oregon, using a 300mm wafer similar to those the company uses to mass produce processor chips.

The largest academic supercomputer in the world has a busy year ahead of it, with researchers from 45 institutions across 22 states being awarded time for its coming operational run.

Frontera, which resides at the University of Texas at Austin's Texas Advanced Computing Center (TACC), said it has allocated time for 58 experiments through its Large Resource Allocation Committee (LRAC), which handles the largest proposals. To qualify for an LRAC grant, proposals must be able to justify effective use of a minimum of 250,000 node hours and show that they wouldn't be able to do the research otherwise. 

Two additional grant types are available for smaller projects as well, but LRAC projects utilize the majority of Frontera's nodes: An estimated 83% of Frontera's 2022-23 workload will be LRAC projects. 

Researchers at the Paul Scherrer Institute and ETH Zurich in Switzerland have managed to accomplish a technological breakthrough that could lead to new forms of low-energy supercomputing.

It's based around something called artificial spin ice: think of water molecules freezing into a crystalline lattice of ice, and then replace the water with nanoscale magnets. The key to building a good spin ice is getting the magnetic particles so small that they can only be polarized, or "spun," by dropping them below a certain temperature. 

When those magnets are frozen, they align into a lattice shape, just like water ice, but with the added potential of being rearranged into a near infinity of magnetic combinations. Here the use cases begin to emerge, and a couple breakthroughs from this experiment could move us in the right direction.

British outfit First Light Fusion claims it has achieved nuclear fusion with an approach that could provide cheap, clean power.

Rather than rely on expensive lasers, complicated optical gear, and magnetic fields, as some fusion reactor designs do, First Light's equipment instead shoots a tungsten projectile out of a gas-powered gun at a target dropped into a chamber.

We're told that, in a fully working reactor, this high-speed projectile will hit the moving target, which contains a small deuterium fuel capsule that implodes in the impact. This rapid implosion causes the fuel's atoms to fuse, which releases a pulse of energy.

Research published today confirms that what scientists thought were two types of active galactic nuclei are, in fact, one: the features were simply tilted at different angles.

The European Space Agency's Solar Orbiter followed up its whizz past Earth as 2021 drew to a close by passing through the tail of a comet. Again.

While eyes were turned to French Guiana and the impending launch of the James Webb Space Telescope, for a few days around 17 December the spacecraft flew through the tail of Comet C/2021 A1 Leonard.

It's not the first time; the spacecraft also passed through the tail of the fragmenting comet C/2019 Y4 ATLAS in May and June 2020, a few short months after its launch.

US scientists have succeeded in demonstrating self-heating plasma in a crucial step towards self-sustaining fusion energy.

Researchers at National Ignition Facility (NIF) at Lawrence Livermore National Laboratory in California have published a peer-reviewed paper describing how they achieved burning plasma — where the heat from fusing nuclei take over as the main source of fuel heating — across four experiments which each produced more than 100 kilojoules of energy.

The result marks an important milestone towards the promised land of nuclear fusion, but is only one step toward true ignition – where a self-sustaining reaction will produce more energy than goes in. Even then, engineering challenges of efficiency, scale and reliability remain on the road ahead.