Science communication matters more than ever. My work with researchers aims to do more than just translate technical concepts into accessible language. I also try to convey the optimism that lies at the heart of the scientific method, namely, the belief that humanity’s most difficult questions can be answered through careful observation and analysis.
Blink and it’s gone
Fast electronics and artificial intelligence are helping physicists capture data and decide what to keep and what to throw away.
Symmetry Magazine
Princeton’s new research data environment offers security, collaboration
Introduced this year by Princeton Research Computing, Citadel enables researchers from anywhere in the world to handle sensitive data while taking strict measures to prevent unauthorized access.
Princeton Institute for Computational Science and Engineering
Princeton’s scientific computing graduate certificate gets an upgrade
Now a formal credential, the Princeton Graduate School‘s Graduate Certificate in Computational Science and Engineering recognizes the central role that computation plays across a widening variety of research disciplines.
Princeton Institute for Computational Science and Engineering
Building a career path for research software engineers
Software is now fundamental to scientific research. Until recently, the people who build it have lacked recognition.
Institute for Research and Innovation in Software for High Energy Physics
High-energy physics opens its doors to the exabyte era
As the high-energy physics community prepares for the High-Luminosity LHC, new data science challenges await.
Institute for Research and Innovation in Software for High Energy Physics
Attention and working memory: Two sides of the same neural coin?
Princeton neuroscientists have demonstrated that attention and working memory are two sides of the same neural coin; what’s more, they have observed the coin as it flips inside the brain.
Princeton University