- The ever-creative McEuen and Cohen groups at Cornell worked together to make graphene-based origami widgets. Access to the paper seems limited right now, but here is a link that has some of the figures.
- Something else that the Cohen group has worked on in the past are complex fluids, such as colloidal suspensions. The general statistical physics problem of large ensembles of interacting classical objects (e.g., maybe short-range rigid interactions, as in grains of sand, or perhaps M&Ms) is incredibly rich. Sure, there are no quantum effects, but often you have to throw out the key simplifying assumption of statistical physics (that your system can readily explore all microscopic states compatible with overall constraints). This can lead to some really weird effects, like dice packing themselves into an ordered array when stirred properly.
- When an ensemble of (relatively) hard classical objects really lock up collectively and start acting like a solid, that's called jamming. It's still a very active subject of study, and is of huge industrial importance. It also explains why mayonnaise gets much more viscous all of the sudden as egg yolk is added.
- I'd be remiss if I didn't highlight a really nice article in Quanta about one of the grand challenges of (condensed matter) physics: Classifying all possible thermodynamic phases of matter. While the popular audience thinks of a handful of phases (solid, liquid, gas, maybe plasma), the physics perspective is broader, because of ideas about order and symmetries. Now we understand more than ever before that we need to consider phases with different topological properties as well. Classification is not just "stamp collecting".
A blog about condensed matter and nanoscale physics. Why should high energy and astro folks have all the fun?
Sunday, January 07, 2018
Selected items
A few recent items that caught my eye:
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