LEAVE A REPLY Cancel replyLog in to leave a comment In this Sept. 17, 2018 file photo, Sandra Oh, left, and Andy Samberg present an award at the 70th Primetime Emmy Awards in Los Angeles. CHRIS PIZZELLO / CHRIS PIZZELLO/INVISION/AP Login/Register With: Facebook Advertisement LOS ANGELES — Canadian Sandra Oh will share hosting duties with Andy Samberg at next month’s Golden Globe Awards.Producers on Wednesday announced the co-hosts for the Jan. 6 ceremony. The Globes are hosted by the Hollywood Foreign Press Association, which presents awards for film and TV.Oh won a 2006 Golden Globe for Grey’s Anatomy. This year, she became the first actress of Asian ethnicity to receive an Emmy nomination for drama series lead, for Killing Eve. Advertisement Advertisement Samberg won two Golden Globes in 2014 for Brooklyn Nine-Nine, for best comedy actor and as a producer.He was the 2016 Emmy Awards host, while Oh is a newcomer to handling emcee duties for a major ceremony.Nominees will be announced Thursday morning. The three-hour Golden Globes ceremony will air live on NBC from Beverly Hills. Twitter
(PhysOrg.com) — Researchers at Daresbury science park in Britain have offered a glimpse into what might be the future of nuclear energy production by showcasing a scaled down particle accelerator; one, that when combined with others just like it, could produce nuclear energy based on thorium, rather than uranium. Dubbed the Electron Machine with Many Applications (EMMA), the accelerator, a much smaller version of the kind used in physics research, such as the Large Hadron Collider, could be used to provide an accelerated beam necessary for the type of nuclear reaction used in a theoretical thorium plant. The EMMA ring in relation to the main ERLP (ALICE) accelerator. Thorium, named for the Norse god of thunder, is a silver-white metal found in abundance all over the planet, and is only very slightly radioactive and as such is a member of the elements known as actinides which, like uranium, occasionally spin off particles which make it useful for energy production. But unlike uranium, thorium is relatively clean because it decays much faster leaving far less reactive byproducts behind; and because it requires a constant bombardment of particles to keep it reacting, is incapable of producing a meltdown; something on the minds of people in the aftermath the Fukushima disaster.That’s where EMMA enters the picture. To produce the constant stream of particles needed to keep a thorium reaction going, an accelerator is needed, but it wouldn’t have to be the huge billion dollar kind, more like the kind you could fit in your garage, or in this case in a lab on the boggy Cheshire flatland, just east of Liverpool, where reporters from the U.K. newspaper Mail, were recently given a tour. They report that EMMA is “an object of scientific beauty…” Scientists have known since the 1950’s that thorium could be used to produce electricity, just as uranium is today; what kept them from doing so was the desire to use technology that could be used in conjunction with atomic weapons, which pushed thorium research aside due to its impracticality for such applications. Today however, things have obviously changed, several countries besides Britain are taking a very hard look at thorium and the ways it could be put to good use and at small particle accelerators too; the team in Britain is also currently at work designing the Particle Accelerator for Medical Applications (Pamela) to be used to help treat hard to reach cancer in patients. © 2010 PhysOrg.com A future energy giant? India’s thorium-based nuclear plans Explore further Citation: New pint sized particle accelerator leads the way to clean nuclear energy (2011, June 20) retrieved 18 August 2019 from https://phys.org/news/2011-06-pint-sized-particle-nuclear-energy.html This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.