From Nature, Dec. 20, 2019: Fermilab should unveil long-awaited results from Muon g–2, a high-precision measurement of how muons — more-massive siblings of electrons — behave in a magnetic field. Physicists hope that slight anomalies could reveal previously unknown elementary particles.
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From FAPESP, Dec. 20, 2019: Os físicos Ana Amélia Bergamini Machado e Ettore Segreto foram os ganhadores do DPF Instrumentation Early Career Award de 2019.
From Kane County Connects, Dec. 19, 2019: The results of a study on Fermilab’s economic impact in Illinois are out, and they demonstrate its substantial impact on the state, including job creation, procurement of goods and services, and increased earnings for Illinois households.
From UNICAMP, Dec. 19, 2019: Ana Amélia Machado e Ettore Segreto fazem parte da colaboração internacional Deep Underground Neutrino Experiment, sediada no Fermilab, e são responsáveis pelo detector de neutrinos chamado ARAPUCA., abreviação de Argon R&D Advanced Program Unicamp.
The American Physical Society Division of Particles and Fields has given its 2019 Early Career Instrumentation Award to two scientists on the international Deep Underground Neutrino Experiment, hosted by Fermilab. Ana Amelia Machado and Ettore Segreto, both of the University of Campinas in Brazil, are recognized for inventing and developing a photon sensor that is currently a baseline technology for the DUNE particle detector.
Spack, a software package management tool, was recognized with an R&D 100 Award in November. Developed for high-performance computing applications, Spack is used as an end-to-end development tool within the high-energy physics community. Fermilab is a contributor to Spack, whose initial development was led by Lawrence Livermore National Laboratory.
From New Scientist, Dec. 11, 2019: Fermilab scientist Dan Hooper is quoted in this article on what scientists mean when they talk about the Big Bang. The best evidence for the big bang is all around us in the cosmic microwave background, the radiation released once the universe had cooled sufficiently for atoms to form, when it was about 380,000 years old. And that is the point: everywhere in today’s universe was where the big bang was.