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1. Sensing with Exceptional Surfaces in Order to Combine Sensitivity with Robustness

   https://doi.org/10.1103/PhysRevLett.122.153902  

   Zhong, Q.; Ren, J.; Khajavikhan, M.; Christodoulides, D. N.; Özdemir, Ş. K.; El-Ganainy, R. (April 2019, Physical Review Letters)
2. ”I need to respond to this” – Contributions to group creativity in remote meetings with distractions

   https://doi.org/10.1145/3533406.3533411  

   Ansah, Alberta A.; Xing, Yilun; Kamaraj, Amudha Varshini; Tosca, Diana; Boyle, Linda; Iqbal, Shamsi; Kun, Andrew L.; Lee, John D.; Pahud, Michel; Shaer, Orit (June 2022, CHIWORK 2022: 2022 Symposium on Human-Computer Interaction for Work)
3. Using Mathematics to Become in Sync With the Brain

   https://doi.org/10.3389/frym.2022.741510  

   Swartz, Micah; Rubchinsky, Leonid L. (May 2022, Frontiers for Young Minds)

   From a young age, we are told that being “in sync” is a good thing! From being in sync with the music as we dance to being in sync with teammates on the field, synchronization is celebrated. However, too little or too much synchronization can be bad. In the brain, synchronization allows important information to be sent back and forth between neurons, so that we can make decisions and function in our daily lives. Mathematics can help researchers and doctors understand patterns of abnormal synchronization in the brain and help them to diagnose and potentially treat the symptoms of brain disorders. In this article, we will dive into how mathematics is used to explore and understand the brain—one of our body’s most important organs. 

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4. What's math got to do with patterns in fish?

   https://doi.org/arXiv:2201.08692  

   Shirman, Blake; Volkening, Alexandria (December 2021, ArXivorg)

   When you think of fish, what comes to mind? Maybe you think of pet goldfish, movie characters like Dory or Nemo, or trout in a local river. One of the things that all of these fish have in common is patterns in their skin. Nemo sports black and white stripes in his orange skin, and trout have spots. Even goldfish have a pattern -- it's just plain gold (and kinda boring). Why do some fish have stripes, others have spots, and others have plain patterns? It turns out that this is a tricky question, so scientists need tools from several subjects to answer it. In this paper, we use biology, math, and computer coding to help figure out how fish get different skin patterns. 

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5. Scaling training to support scientists to engage with the public in non-traditional venues

   https://doi.org/10.22323/2.20040802  

   Weber, Caitlin; Allen, Sue; Nadkarni, Nalini (January 2021, Journal of Science Communication)

   Public engagement with science activities need to be extended beyond traditional learning venues (e.g., museums, schools) to increase public access. Scientists are motivated to carry out this work; however, it is difficult to scale up training to support the implementation of engagement activities in non-traditional venues. Such training would need to be applicable to different engagement contexts, while avoiding a “one size fits all” approach. We describe the guiding principles, challenges, and design choices of a training program in the United States to support scientists in designing and implementing audience-specific engagement activities in a range of non-traditional venues. 

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