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Jul 24, 2022
The mobile construction robot can lay bricks in any pattern
Posted by Shubham Ghosh Roy in category: robotics/AI
Jul 24, 2022
Meet the Giant Sequoia, the ‘Super Tree’ Built to Withstand Fire
Posted by Shubham Ghosh Roy in category: futurism
Mammoth redwood trees have evolved along with fire, but humans are disrupting that delicate balance.
Jul 24, 2022
Kylie Jenner’s flight controversy sends a warning to short-haul eVTOLs
Posted by Shubham Ghosh Roy in category: futurism
Kylie Jenner uses her private jet to take short-haul flights. But the future of eVTOLs includes problematic on-demand eVTOL trips.
Jul 24, 2022
An abandoned Berlin airport is being transformed into a climate-neutral, car-free neighborhood
Posted by Shubham Ghosh Roy in categories: climatology, education, habitats
Interesting story.
The site will have 5,000 new apartments—along with schools and stores that all residents can walk to.
Jul 24, 2022
France welcomes new chips production site in bid to become global player
Posted by Wise Technology in category: computing
France is set to welcome a new semiconductor production site on its soil as it continues the drive to position itself on the global market amid growing shortages, though it is still unclear where funding for the new plant is coming from.
Read the original French article here.
France will open a new semiconductor factory, according to the announcement by French company STMicroelectronics and US company GlobalFoundries released on Monday (11 July).
Jul 24, 2022
Ten years after the Higgs, physicists face the nightmare of finding nothing else
Posted by Wise Technology in categories: particle physics, space
Unless Europe’s Large Hadron Collider coughs up a surprise, the field of particle physics may wheeze to its end.
CELESTA, the first CERN-driven satellite, successfully entered orbit during the maiden flight of Europe’s Vega-C launch vehicle. Launched by the European Space Agency from the French Guiana Space Centre (CSG) at 13.13 UTC on 13 July 2022, the satellite deployed smoothly and transmitted its first signals in the afternoon. Weighing one kilogram and measuring 10 centimetres on each of its sides, CELESTA (CERN latchup and radmon experiment student satellite) is a 1U CubeSat designed to study the effects of cosmic radiation on electronics. The satellite carries a Space RadMon, a miniature version of a well-proven radiation monitoring device deployed in CERN’s Large Hadron Collider (LHC). CELESTA has been sent into an Earth orbit of almost 6,000 kilometres.
Jul 24, 2022
CERN tech in space: driven satellite has been successfully launched
Posted by Wise Technology in categories: particle physics, satellites
CELESTA, the first CERN-driven satellite, successfully entered orbit during the maiden flight of Europe’s Vega-C launch vehicle. Launched by the European Space Agency from the French Guiana Space Centre (CSG) at 13.13 UTC on 13 July 2022, the satellite deployed smoothly and transmitted its first signals in the afternoon. Weighing one kilogram and measuring 10 centimetres on each of its sides, CELESTA (CERN latchup and radmon experiment student satellite) is a 1U CubeSat designed to study the effects of cosmic radiation on electronics. The satellite carries a Space RadMon, a miniature version of a well-proven radiation monitoring device deployed in CERN’s Large Hadron Collider (LHC). CELESTA has been sent into an Earth orbit of almost 6,000 kilometres. “Right in the middle of the inner Van Allen belt, CELESTA will survey an unusual orbit where radiation levels are at their highest,” explains Markus Brugger, Head of the CERN Experimental Areas group and initiator of both the CHARM and CELESTA projects in the context of the R2E (Radiation to Electronics) initiative. The Space RadMon is a flagship example of how CERN technologies can have applications beyond particle physics experiments. “Based entirely on standardised, ultra-sensitive components selected and calibrated by CERN, and mostly in CERN facilities, the Space RadMon is a lightweight and low-power instrument, ideal for future risk-tolerant space missions,” says Ruben Garcia Alia, R2E project leader. “If CELESTA is successful, the Space RadMon could even be adapted to satellite constellations as a predictive maintenance tool – to anticipate the necessary renewal of satellites.” A radiation model of the CELESTA satellite was also tested in CHARM, a CERN mixed-field facility capable of reproducing, to a large extent, the radiation environment of low Earth orbit. The mission will be an important validation of this capability at the facility. “Capable of testing satellites all at once, rather than component by component, CHARM is a unique installation worldwide, remarkably different from other irradiation test facilities. It offers a simple, low-cost alternative and the possibility to assess system-level effects,” says Salvatore Danzeca, CHARM facility coordinator. The success of this satellite is the result of a fruitful partnership between CERN and the University of Montpellier, which involved many students from both institutions and radiation effect specialists from CERN. CELESTA is based on the CSUM radiation tolerant platform. It will be operated from the CSUM control centre. The European Space Agency provided the launch slot in the framework of its small satellite programme. “On a mission to make space more accessible, CELESTA is an exciting example of how CERN expertise can have a positive impact on the aerospace industry. With this mission, CERN displays its low-cost solutions for measuring radiation and testing satellites against it – thus providing universities, companies and startups with the means to realise their space ambitions,” concludes Enrico Chesta, CERN’s Aerospace and Environmental Applications Coordinator in the Knowledge Transfer group. Further information: Video of the launch More about the aerospace applications.
Jul 24, 2022
NASA, Russian space agency sign deal to share space station flights
Posted by Wise Technology in category: space
July 15 (Reuters) — NASA and Russia’s space agency Roscosmos have signed a long-sought agreement to integrate flights to the International Space Station, allowing Russian cosmonauts to fly on U.S.-made spacecraft in exchange for American astronauts being able to ride on Russia’s Soyuz, the agencies said Friday.
“The agreement is in the interests of Russia and the United States and will promote the development of cooperation within the framework of the ISS program,” Roscosmos said in a statement, adding it will facilitate the “exploration of outer space for peaceful purposes.”
NASA and Roscosmos, the two-decade-old space station’s core partners, have sought for years to renew routine integrated crewed flights as part of the agencies’ long-standing civil alliance, now one of the last links of cooperation between the United States and Russia as tensions flare over the war in Ukraine.