GKN, Marshall and Parker to Cooperate on Hydrogen Flight

GKN & Marschall and Parker to cooperate on hydrogen flightAerospace industry supplier GKN Aerospace is joining forces with Marshall and Parker Aerospace to explore liquid hydrogen fuel systems for aircraft. The partners plan to develop a liquid hydrogen system suitable for both fuel cell and internal combustion engine aircraft.

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Unveiling the Intricate Protein Complex Guiding Signaling to Cilia

Image courtesy of Bio Tech.

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Electrifying Space: Zenno’s fuel-free satellite pointing system

Zenno's Max Arshavsky (L) & Erica Lloyd (R) with Z01New Zealand-based space-flight systems company, Zenno Astronautics (Zenno), has proudly announced a remarkable achievement—surpassing a staggering $75 million in product sales (equivalent to USD 48 million) for its groundbreaking innovation, the Z01™ superconducting magnetorquer for spacecraft attitude control.

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World-First in Oman

Image: The historic arrival of the world's inaugural liquefied hydrogen carrier, Suiso Frontier, arrived at Sultan Qaboos Port in Muscat on August 14. Credit: KHIA momentous event unfolded as the world's first-ever liquefied hydrogen carrier, Suiso Frontier, graced the shores of Sultan Qaboos Port in Muscat on August 14. Proudly crafted by the renowned Kawasaki Heavy Industries (KHI), this marks the long-anticipated debut of Suiso Frontier in the Sultanate of Oman. The name "Suiso" gracefully translates to hydrogen in Japanese, encapsulating the vessel's groundbreaking mission.

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Breakthrough Enables Quench Detection in High-Field Magnets for Fusion Reactors

Magnetic field (Hall) probe matrix allows current distributions to be recreated and demountable joints allow current redistribution between CORC cables at each turn. Demountable joints shown here are conceptual. Joint resistances must be on the order of nano-ohms. Credit: Berkeley Lab Researchers at Berkeley Lab's Accelerator Technology & Applied Physics (ATAP) Division have developed a method for detecting and predicting the local loss of superconductivity in large-scale magnets that are capable of generating high magnetic fields. These high-field magnets are a core enabling technology for many areas of scientific research, medicine and energy, where they are used in a range of applications, including in particle accelerators and colliders for high energy [JS1] and nuclear physics, diagnostic and therapeutic medical devices and energy generation, transmission and storage technologies.

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SkyWater Unveils Cryo Lab, Partners with FormFactor for Advanced RTS Noise Detection in ROIC Applications

SkyWater establishes cryogenic lab to characterize RTS noise for ROICs. Credit: SkyWaterSkyWater Technology announced earlier this year the establishment of a new cryogenic lab dedicated to characterizing random telegraph signal (RTS) noise for read-out integrated circuits (ROICs). This move is aimed at addressing the crucial need to mitigate RTS noise in order to enhance image quality and performance for ROIC customers across various applications, including night vision, military surveillance and industrial and automotive thermal imaging.

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NASA Rocket Hardware Prepped for Shipment to Space Coast

NASA Rocket Hardware Prepped for Shipment to Space CoastWith Artemis teammates and media watching, United Launch Alliance (ULA) crews guided the interim cryogenic propulsion stage (ICPS) for NASA’s SLS (Space Launch System) rocket for Artemis III to the loading dock at ULA’s facility in Decatur, Alabama, July 31. ULA’s R/S RocketShip will transport the flight hardware to ULA’s sister facility in Florida near NASA’s Kennedy Space Center, where it will undergo final checkouts.

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Contract Awarded for Acquisition of Large Cryogenic System for DUNE Detectors in South Dakota

Participants from the project’s kick-off meeting, with representatives from Air Products and the LBNF team, gather in Fermilab’s Wilson Hall with Fermilab Director Lia Merminga (center, front). Photo: Ryan Postel, FermilabA significant milestone has been achieved in the realization of the Deep Underground Neutrino Experiment (DUNE) with the awarding of a multi-year contract for the acquisition of a large cryogenic plant. This plant will be responsible for cooling tens of thousands of tons of liquid argon, bringing the ambitious experiment one step closer to fruition.

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New Superconductor Could Lead to Quantum Computing Breakthrough

Image: A new type of superconductor may just be what physicists have been searching for over the past 40 years. Credit: TheDigitalArtist on PixabaySuperconductivity is the property of zero electrical resistance at ultralow temperatures and was discovered in 1911 by the Dutch physicist Kamerling-Ohnes. It plays a crucial role in many industries and technologies, ranging from quantum computing to energy. “Superconductors are amazing materials which have many strange and unusual properties,” explained Joe Carroll, a Ph.D. researcher at Macroscopic Quantum Matter Group laboratory in University College Cork. “Most famously they allow electricity to flow with zero resistance. That is, if you pass a current through them, they don’t start to heat up; in fact, they don’t dissipate any energy despite carrying a huge current.

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Superconductivity Breakthrough: First Direct Visualization of a Zero-Field Pair Density Wave

Image: In this illustration of the superconducting material Eu-1144, the blue and magenta wave shown above the crystal lattice represents how the energy level of the electron pairs (yellow spheres) spatially modulates as these electrons move through the crystal. Credit: Brookhaven National LaboratoryIn the field of superconductivity—the phenomenon in which electrons can flow through a material with essentially zero resistance—the “holy grail” of discovery is a superconductor that can perform under everyday temperatures and pressures. Such a material could revolutionize modern life. But currently, even the “high-temperature” (high-Tc) superconductors that have been discovered must be kept very cold to function—too cold for most applications.

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Green Hydrogen Facility May Be Coming to NY

 Aerial view of proposed Green Hydrogen Facility in Massena. Credit: C&S EngineeringA new green facility may be coming to Massena, NY. Air Products, an industrial gas supply company, has proposed a green hydrogen facility in Massena, according to a press release from C&S Engineers. This facility would produce liquid hydrogen by electrolysis to be used as a renewable fuel source. Project leaders explained this process in a public fact sheet. Electrolysis is a technique that uses direct current to harvest the hydrogen.

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Cryogenics at FAIR: Adaptability is Key

Image: Cryo connections Cryogenic by-pass lines supplied to FAIR through an in-kind contribution by WUST in Poland. Credit: GSIThe Facility for Antiproton and Ion Research (FAIR) in Darmstadt, Germany, represents an ambitious reimagining of the GSI Helmholtz Center for Heavy Ion Research, one of Europe’s leading accelerator research laboratories. When it comes online for initial user experiments in 2027, FAIR will provide scientists from around the world with a multipurpose accelerator complex that’s built to address a broad-scope research canvas – everything from hadron physics, nuclear structure and astrophysics to atomic physics, materials science and radiation biophysics (as well as downstream applications in cancer therapy and space science).

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Cryogenic SRAM IP Demonstrator Taped Out

sueCore, the Sheffield low-power SRAM IP specialist, has taped out it its first cryogenic IC demonstrator under the “Development of CryoCMOS to Enable the Next Generation of Scalable Quantum Computers” program.sureCore’s cryogenic SRAM is a building block for any digital sub-system, that is capable of operating from 77K (-196° C) down to the near absolute zero temperatures needed by Quantum Computers (QCs).  Standard cell and IO cell libraries have been re-characterized for operation at cryogenic temperatures, thereby enabling an industry standard RTL to GDSII physical design flow to be readily adopted.

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New Bolometer Could Lead to Better Cryogenic Quantum Technologies

A new type of bolometer that covers a broad range of microwave frequencies has been created by researchers in Finland. The work builds on previous research by the team, and the new technique could potentially characterize background noise sources and thereby help to improve the cryogenic environments necessary for quantum technologies.A new type of bolometer that covers a broad range of microwave frequencies has been created by researchers in Finland. The work builds on previous research by the team, and the new technique could potentially characterize background noise sources and thereby help to improve the cryogenic environments necessary for quantum technologies.

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CCAT Observatory Approaches First Light

Rendering of the Fred Young Submillimeter Telescope. Credit: CPI Vertex Antennentechnik GmbHFor the past six years, CCAT Observatory Inc., a nonprofit research organization formed by more than a dozen academic institutions led by Cornell University, has been developing a new telescope, the Fred Young Submillimeter Telescope (FYST, pronounced “feast”) and its supporting infrastructure to observe at submillimeter wavelengths. The infrastructure is currently under construction at an altitude of 5,600 m near the summit of Cerro Chajnantor in the Atacama Desert of northern Chile, one of the driest places on Earth. Since water vapor absorbs the wavelengths of interest, the site is arguably the best ground-based location for submillimeter observations due to its thin, ultradry atmosphere. Once complete, it will be the second highest observatory in the world.  

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Air Gases Can Benefit the Environment

500-ton-per-day, 1981 cryogenic oxygen plant with reversing exchangers. Credit: Nils TellierOverview-The commercial production of oxygen and nitrogen supported the industrial revolution in the late 19th century and up to the mid-20th. Oxy-acetylene cutting and welding were important for projects like the Eiffel Tower, the Panama Canal and the Central Valley Project Corporation hydropower plants. Oxygen, nitrogen and argon refined steelmaking and metal heat treatment, from Bessemer steel converters to cryogenic tempering. Food conservation has benefited from nitrogen, argon and CO2 with the controlled atmosphere conservation of produce.

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Analyzing Transcritical CO2 Compression and Pumping Pathways

 Figure 1: Phase diagram of carbon dioxide above and in the vicinity of the critical point showing the dense fluid, liquid-gas-like supercritical and the transitional (Widom) region. Figure 2: Sensitivity of isobaric heat capacity, cp is examined for 0.5 bar change of pressure at a constant temperature of 35 °C across a range of pressures above the critical point of pure CO2 [3]. Figure 3: Three possible transcritical CO2 compression pathways from 1 bara to 150 bara.[3] Credit: Matt Taher, P.E.Supercritical carbon dioxide exhibits anomalous behavior in the vicinity above the critical point. The Irish physical chemist Thomas Andrews (1863) was the first who studied the supercritical behavior of carbon dioxide. He explained his observations of the fluid state above the critical point as follows: “…the surface of demarcation between the liquid and gas became fainter, lost its curvature, and at last disappeared, the tube being then filled with a fluid which, from its optical and other properties, appeared to be perfectly homogeneous [T. Andrews, Jan. 1870]”. 

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AVCO Sets its Sights on Mars

Launcher space test with AVCO valves. Credit: Andre at Launcher Space“You’re Going to The Moon” should now be quoted as “You’re Going to Mars.” From the 1990s downturn in the aerospace industry to today’s exponential growth, the demand for precision flow control and flow measurement has continued to follow the same growth trajectory. The focus of Alloy Valves and Control (AVCO) has been on the need to fulfill the requirements of research and development for rocket engine design, test stands, rocket propellant and life support systems for space travel in both unmanned and manned space vehicles.   

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Goddard Goings: Insight Into Its Past, Present and Future

The slow cooldown of JWST’s MIRI was intentional because it enabled efficient scheduling of the deployment tasks and ensured the cleanliness of the optics by preventing water and molecular contamination transport. Credit: NASA GSFCJames Webb Space Telescope-“I’m Back in the Saddle Again!” – It’s likely anyone reading this article has heard about the James Webb Space Telescope (JWST). The telescope launched on December 25, 2021 (EST) with much fanfare. Over the next month, it traveled to its observation location at the L2 Lagrange point in the earth-sun gravitational system. It has been sitting comfortably at this saddle point for well over a year. Cooling of the instrument didn’t wait until reaching this point. Oh no, this began shortly after the launch from the spaceport in French Guiana because the majority of the telescope was cooled passively via thermal radiation to outer space. 

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Success in Harsh Environments: Signaling the Future of Cryogenic Communications

Thin film technician processing a resistor board. Credit: XMA CorporationXMA, with its space heritage spanning from low-Earth orbit (LEO) to deep space exploration units, embarked on a journey to enter the supply chain for quantum computing more than 10 years ago. The driving force behind this industry expansion was XMA’s success in cryogenic temperatures down to approximately 4 K in space environments. XMA managed to strike the perfect balance between rugged materials that remained non-superconductive at cold temperatures and low-mass products. When quantum technologists cooled these components to millikelvin temperatures, the specifications remained unchanged. This consistent performance from ambient to cryogenic conditions has become XMA’s baseline for success. With the cross-pollination of knowledge between the space and quantum industries, XMA has experienced steady growth in both sectors, thanks to its novel designs and successful environmental testing. As space exploration and quantum computing continue to advance, XMA leverages the newfound knowledge from each industry to improve the other. 

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