The wings of Lepidoptera contain a matrix of living cells whose functioning requires appropriate temperatures. However, given their small thermal capacity, wings can overheat rapidly in the sun. Here we analyze butterfly wings across a wide range of simulated environmental conditions, and find that regions containing living cells are maintained at cooler temperatures in a manner that is largely unaffected by visible color patterns. Diverse scale nanostructures and non-uniform cuticle thicknesses create a heterogeneous distribution of radiative cooling that selectively reduces the temperature of living structures such as wing veins and androconial organs.

Adam Sobel doesn't want to prove that climate change is real. If you don't believe yet, he's confident you will eventually. Instead, what he wants to do is help our decision making about long-term events with future consequences to be better. He talks about climate change and how it has already and will continue to affect New York City, and how everyone should be thinking differently. Adam Sobel is a professor at Columbia University’s Lamont-Doherty Earth Observatory and Fu Foundation School of Engineering and Applied Sciences. He is an atmospheric scientist who specializes in the dynamics of climate and weather, particularly in the tropics, on time scales of days to decades. This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at http://ted.com/tedx

Read the full interview in Columbia Engineering magazine. After almost a decade of long-distance collaborations, Keren Bergman, Michal Lipson, and Alex Gaeta are working together in one place, here at Columbia Engineering. Lipson and Gaeta joined the School this summer as the Eugene Higgins Professor in Electrical Engineering (EE) and the David M. Rickey Professor of Applied Physics and of Materials Science, respectively. And now, together with Bergman, who is the Charles Batchelor Professor and EE chair, the trio is set to break new ground in nanophotonics, or, as Lipson, a preeminent leader in nanophotonic fabrication, puts it, “optics on a very, very small scale.”

Broadband imaging in the near-infrared using a single meta-lens, showing the ability of the lens in correcting chromatic aberrations, and manufacturing of meta-lenses using planar fabrication techniques similar to those used in the integrated circuits industry.

In order to see inside nanomaterials and learn how nanoparticles evolve, Simon Billinge, applies the world’s newest and brightest synchrotron light source—the National Synchrotron Light Source II (NSLS-II) at the U.S. Department of Energy’s Brookhaven National Laboratory A physicist with a joint position at Columbia University's School of Engineering and Applied Science and Brookhaven, Billinge gives us a tour of his workflow at NSLS-II.

Video demonstrating flexibility of Yang's lithium-ion battery powering a smart watch, in flat, flexed, and twisted configurations.

If the processes powering the fusion reactor at the Sun's core could be recreated on Earth, it would be one of the most important events in the history of our species. Nuclear fusion power plants could end our dependency on fossil fuels and provide a virtually limitless, highly efficient source of clean energy. We went to two of the world's leading nuclear fusion research centers—Sandia National Labs in New Mexico and General Fusion outside Vancouver—to see how close we are to bringing the power of the stars down to Earth. Check out CNET's channel for more: http://bit.ly/2gpeXdr Subscribe to MOTHERBOARD: http://bit.ly/Subscribe-To-MOTHERBOARD Follow MOTHERBOARD Facebook: http://www.facebook.com/motherboardtv Twitter: http://twitter.com/motherboard Tumblr: http://motherboardtv.tumblr.com/ Instagram: http://instagram.com/motherboardtv More videos from the VICE network: https://www.fb.com/vicevideo

Superstorm Sandy was a wake-up call for a lot of people in New York City, including Adam Sobel, who’s spent more than two decades studying the physics of weather and climate. He spent a lot of time talking to the media about what was happening, and why. He says the intense public interest made clear to him the need to find ways to apply the esoteric physics of atmosphere and oceans so we can be better prepared for the next extreme event. Sobel is a research scientist and professor in the Department of Applied Physics and Applied Mathematics, the Department of Earth and Environmental Sciences and the Lamont-Doherty Earth Observatory. He directs the Columbia Initiative on Extreme Weather and Climate. In this latest in our video series, Sobel talks about the hard work of predicting extreme and rare weather events, and how he came to study in this field. (Photos: NOAA, NASA, U.S. Navy, U.S. Coast Guard, NYC MTA, John Allen, Creative Commons)

Sponsored by Columbia's Women Inventors Network and by Women in Science @ Columbia, this discussion takes a deep dive into the tale of three scientists' journey from innovation to spinout and what life is like at the intersection of university research and the commercial sector.

Materials science pioneer Katayun Barmak takes you behind the scenes at Columbia Nano Initiative’s new Electron Microscopy lab where researchers probe the nature of materials at the nanoscale.

Climate change is real, case closed. But there's still a lot we don't understand about it, and the more we know the better chance we have to slow it down. One still-unknown factor: How might clouds play a part? There's a small hope that they could buy us some time to fix things ... or they could make global warming worse. Climate scientist Kate Marvel takes us through the science of clouds and what it might take for Earth to break its own fever. Check out more TED talks: http://www.ted.com The TED Talks channel features the best talks and performances from the TED Conference, where the world's leading thinkers and doers give the talk of their lives in 18 minutes (or less). Look for talks on Technology, Entertainment and Design -- plus science, business, global issues, the arts and more. Follow TED on Twitter: http://www.twitter.com/TEDTalks Like TED on Facebook: https://www.facebook.com/TED Subscribe to our channel: https://www.youtube.com/TED

Speaker: Matthew Jones & Chris Wiggins Title: Data: Past, Present, and Future DBMI Data Science Retreat 2018 April 18th

Extreme Weather and Climate Change, part 1: What We Know Nevis Labs: http://www.nevis.columbia.edu/ Science-on-Hudson lectures: http://www.nevis.columbia.edu/events/science-on-hudson.html Facebook: https://www.facebook.com/NevisLaboratories Twitter: https://twitter.com/NevisLabs Columbia initiative on Extreme Weather and Climate: http://extremeweather.columbia.edu/ Description of the talk: Speaker: Professor Adam Sobel, Columbia University Part of Nevis Labs' #ScienceOnHudson lecture series. Recorded Thu Feb 16, 2017 How does climate change influence extreme weather events? Are they increasing in frequency or intensity? When a particular event happens, can we say with any justification that climate change played a role, or that it didn’t? How does the answer differ depending on which kind of event we are talking about – heat waves, floods, droughts, hurricanes, or tornadoes? I will explain what we know and don’t know, based on the latest scientific research on these topics.

C. K. [John] Chu. Pioneering Computational Fluid Dynamics / Computational Earth and Atmospheric Science Michael Mauel, Professor of Applied Physics Adam Sobel, Professor of Applied Physics and Applied Mathematics and of Earth and Environmental Sciences

Colin Fink. Pioneering Electrochemistry / Computation and Materials Discovery Alan C. West, Samuel Ruben–Peter G. Viele Professor of Electrochemistry and Professor of Chemical Engineering Chris Marianetti, Associate Professor of Materials Science and Applied Physics and Applied Mathematics

Learn about the fields of study available in Columbia Engineering's Applied Physics, Applied Mathematics, and Materials Science and Engineering master's programs.

Find out more about Columbia Engineering's Medical Physics specialities and how the master's program combines resources from Columbia University Medical Center and the Department of Applied Physics and Applied Mathematics.