The company is adapting commercial thermal-sensing tech for military applications

The post Muon Space to develop sensor payload for missile defense satellites appeared first on SpaceNews.

Space-based solar power startup Aetherflux has thrown its hat into the emerging market for orbital data centers, joining SpaceX, Amazon and others exploring ways to move energy-hungry artificial intelligence compute off Earth.

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China launched four missions in four days, accelerating its record-setting launch cadence while expanding its Guowang LEO megaconstellation and deploying new Yaogan reconnaissance assets.

The post China launches 4 times in 4 days, boosting megaconstellation and surveillance assets appeared first on SpaceNews.

A proposed new way of defining the standard unit of electrical resistance would do away with the need for strong magnetic fields when measuring it. The new technique is based on memristors, which are programmable resistors originally developed as building blocks for novel computing architectures, and its developers say it would considerably simplify the experimental apparatus required to measure a single quantum of resistance for some applications.

Electrical resistance is a physical quantity that represents how much a material opposes the flow of electrical current. It is measured in ohms (Ω), and since 2019, when the base units of the International System of Units (SI) were most recently revised, the ohm has been defined in terms of the von Klitzing constant h/e², where h and e are the Planck constant and the charge on an electron, respectively.

To measure this resistance with high precision, scientists use the fact that the von Klitzing constant is related to the quantized change in the Hall resistance of a two-dimensional electron system (such as the one that forms in a semiconductor heterostructure) in the presence of a strong magnetic field. This quantized change in resistance is known as the quantum Hall effect (QHE), and in a material like GaAs or AlGaAs, it shows up at fields of around 10 Tesla. Generating such high fields typically requires a superconducting electromagnet, however.

A completely different approach

Researchers connected to a European project called MEMQuD are now advocating a completely different approach. Their idea is based on memristors, which are programmable resistors that “remember” their previous resistance state even after they have been switched off. This previous resistance state can be changed by applying a voltage or current.

In the new work, a team led by Gianluca Milano of Italy’s Istituto Nazionale di Ricerca Metrologia (INRiM); Vitor Cabral of the Instituto Português da Qualidade; and Ilia Valov of the Institute of Electrochemistry and Energy Systems at the Bulgarian Academy of Sciences studied a device based on memristive nanoionics cells made from conducting filaments of silver. When an electrical field is applied to these filaments, their conductance changes in distinct, quantized steps.

The MEMQuD team reports that the quantum conductance levels achieved in this set-up are precise enough to be exploited as intrinsic standard values. Indeed, a large inter-laboratory comparison confirmed that the values deviated by just -3.8% and 0.6% from the agreed SI values for the fundamental quantum of conductance, G₀, and 2G₀, respectively. The researchers attribute this precision to tight, atomic-level control over the morphology of the nanochannels responsible for quantum conductance effects, which they achieved by electrochemically polishing the silver filaments into the desired configuration.

A national metrology institute condensed into a microchip

The researchers say their results are building towards a concept known as an “NMI-in-a-chip” – that is, condensing the services of a national metrology institute into a microchip. “This could lead to measuring devices that have their resistance references built-in directly into the chip,” says Milano, “so doing away with complex measurements in laboratories and allowing for devices with zero-chain traceability – that is, those that do not require calibration since they have embedded intrinsic standards.”

Yuma Okazaki of Japan’s National Institute of Advanced Industrial Science and Technology (AIST), who was not involved in this work, says that the new technique could indeed allow end users to directly access a quantum resistance standard.

“Notably, this method can be demonstrated at room temperature and under ambient conditions, in contrast to conventional methods that require cryogenic and vacuum equipment, which is expensive and require a lot of electrical power,” Okazaki says. “If such a user-friendly quantum standard becomes more stable and its uncertainty is improved, it could lead to a new calibration scheme for ensuring the accuracy of electronics used in extreme environments, such as space or the deep ocean, where traditional quantum standards that rely on cryogenic and vacuum conditions cannot be readily used.”

The MEMQuD researchers, who report their work in Nature Nanotechnology, now plan to explore ways to further decrease deviations from the agreed SI values for G₀ and 2G₀. These include better material engineering, an improved measurement protocol, and strategies for topologically protecting the memristor’s resistance.

The post Memristors could measure a single quantum of resistance appeared first on Physics World.

The Senate Commerce Committee advanced the nomination of Jared Isaacman to be NASA administrator to the full Senate in a Dec. 8 vote.

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Energy spectrum of elusive particles shows an intriguing bump, giant IceCube experiment reports

Learn about the latest NASA and ESA images of Comet 3I/ATLAS, showing its brightness and tails of dust and plasma. 

The mystery of whether TRAPPIST-1e has an atmosphere capable of hosting life continues. Discover more about it.

Learn how researchers used Einstein’s theory of general relativity to create the most accurate simulations to date.

Learn how a mosaic in Britain preserves a rare telling of the Trojan War once attributed to the playwright Aeschylus.

The ongoing review could have implications for space projects

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Learn more about oil residue left over on ancient "dirty dishes" and what they can tell us about ancient olive oil production. 

Learn how mood can affect how we interpret our pup’s emotions and why this may have implications of how we treat our pets.

Learn how new high-resolution images of two nova eruptions offer fresh insight into how these stellar explosions release material and generate shock waves.

December 8, 2025 – Washington, D.C. – The Commercial Space Federation (CSF) is pleased to welcome its four newest members to our Space Supply Chain Council (S2C2): McCollister’s, MERC Aerospace, […]

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Optogenetics is poised to move from a research tool to new therapies—if scientists can show it’s safe

Bark spider silk is stronger than steel, but males make a weaker version

Growing more common as climate warms, these once-rare events could ultimately accelerate ice loss

Research links variations in the gene GRIN2A to a higher risk of developing schizophrenia and other forms of mental illness.

MILAN – When the European Space Agency announced its new three-year spending plan last month, two countries stood out for the increased size of their contributions.  Poland boosted its budget from 198 million euros ($230 million) in 2022 to 735 million euros in 2025 (a 276% increase). Spain raised its contribution from 933 million euros […]

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Learn more about the Pyramids of Giza, who they were built for, and the possible methods used to complete them. 

As the space industry explores orbital data centers to meet growing demands for sovereignty, resilience and sustainability, one critical lens remains underutilized: cost. Not just launch cost or CapEx; but total cost of ownership, sourcing strategy and operational efficiency. We think it would be helpful to reframe the conversation around space-based infrastructure from technical feasibility […]

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A proposed European Union space law could cost both European and American space companies hundreds of millions of euros in lost revenue annually, according to a new study.

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NASA has extended an agreement with a nonprofit organization to manage the portion of the International Space Station designated as a national laboratory, likely for the final time.

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