11-Apr-2017: Belle-II ‘rolls in’ to collision point
The High Energy Accelerator Research Organisation (KEK) completed the ‘rolling-in’ of the Belle-II experiment in Tsukuba, Japan. This experiment is designed to study violations of the Standard Model and dark matter.
A grand collaboration of 700 scientists from 23 countries, Belle-II has a significant Indian participation both on experimental and theoretical sides. The fourth layer of the six-layer, highly sensitive particle detector, which is at the heart of Belle-II, has been built by Indian scientists, led by Tariq Aziz and Gagan Mohanty, who are with the Tata Institute of Fundamental Research (TIFR), Mumbai. In 1998, when Indians [in this field] were working mostly with CERN (European Organisation for Nuclear Research), KEK first wanted us to participate in this experiment, which had a complementary approach.
Belle-II has better sensitivity, some 50 times higher, than its predecessor, Belle. Initially, we did not have the chance to build the detector, and this is the second step — to work with the inner part of the detector, where the resolution has to be high. We are happy we did it and are now among four important groups in the world that can build such detectors.
Scientists from the Indian Institutes of Technology (IITs) in Bhubaneswar, Chennai, Guwahati and Hyderabad; the Institute of Mathematical Sciences (IMSc), Chennai; Punjab University; Punjab Agricultural University; MNIT (Malaviya National Institute of Technology), Jaipur; IISER (Indian Institutes of Science Education and Research) Mohali; and TIFR, Mumbai, are participating in this research.
Complementary to the direct search experiments being carried out at the Large Hadron Collider in CERN, Belle-II will indirectly probe new physics using intense electron-positron beams and a sensitive detector. Indian scientists led by TIFR have built a part of the highly sensitive silicon vertex detector, which will be attached to the set up at a later date, now that the rest have been successfully integrated. The silicon vertex detector has a six-layered structure and the fourth layer was constructed by Indian scientists.
23-Mar-2017: Scientists switched on The World's Largest "Artificial Sun"
Scientists in Germany have switched on the world’s largest artificial Sun "synlight" for the first time. It's located in Jülich, Germany and operated by the German Aerospace Center (DLR).
“Synlight” uses 149 xenon lamps to recreate the light from the Sun onto a single point, vaporizing water and producing hydrogen and oxygen. The huge machine towers 14 meters (45 feet) high and 16 meters (52 feet) across, and produces temperatures of up to 3,000°C (5,400°F) focused on a single spot 20 by 20 centimeters (8 by 8 inches). This particular test lasted just 15 to 20 minutes, producing a tiny amount of hydrogen, but the lamps can theoretically be run continuously for hours or even a day.
The lamps have an output of 350 kilowatts, and supposedly produce 10,000 times the intensity of solar radiation on Earth. Its spectrum of UV radiation is similar to that of the Sun. When focused onto a metal sheet in a small reactor device, it splits water up into hydrogen and oxygen.
Synlight's goal is to replicate the process using sunlight to produce usable amounts of hydrogen.