Proteins are nature’s machines, performing tasks from transforming sunlight into useable energy to binding oxygen for transport through the body. These functions depend on structural arrangement of atoms within the protein, which was, until recently, only possible to measure statistically, in easily crystallized samples via conventional X-ray diffraction. In the past decade, X-ray Free Electron Lasers (XFELs), a new type of X-ray source, have begun to come online. Using ultra-bright,...

Particle accelerators have been revolutionizing discoveries in science, medicine, industry and national security for over a century. An estimated 30,000 particle accelerators are currently active around the world. In these machines, electromagnetic fields accelerate charged particles, such as electrons, protons, ions or positrons to velocities nearing the speed of light. Although their scientific appeal will remain evident for many decades, one limitation of the current generation of particle...

Do complex systems exhibit fundamental properties? This talk looks at tradeoffs between robustness and fragility that occur in biological, ecological, and technological systems that are driven by design, evolution, or other sorting processes to high-performance states which are also tolerant to uncertainty in the environment and components. Series: "GRIT Talks" [Show ID: 32758]

UC Berkeley mechanical engineers have shown why your shoelaces keep coming untied. It’s a question that everyone asks themselves, often after stopping to retie their shoes, yet no one had investigated. The answer, the study suggests, is that a double whammy of stomping and whipping forces act like an invisible hand, loosening the knot and then tugging on the free ends of your laces until the whole thing unravels. Using a slow-motion camera and a series of experiments, the study shows that...

The 2012 discovery of the Higgs boson completes a powerful and comprehensive description of nature known as the standard model of particle physics. The next step is to find the new physics that underpins this model, which many physicists believe could solve mysteries first seen in astrophysical and cosmological data, such as dark matter and neutrino mixing. Joseph Incandela, UCSB Professor of Physics, gives a general overview of where things stand and what’s being planned, including his own...

A brief overview of how UC San Diego scientists are leading the next revolution in biology. Series: "UCTV Prime" [Science] [Show ID: 30564]

A simple question from his wife – Does physics really allow people to travel back in time? – propelled physicist Richard Muller on a quest to resolve a fundamental problem that had puzzled him throughout his 45-year career: Why does the arrow of time flow inexorably toward the future, constantly creating new "nows"? Series: "UC Berkeley News" [Science] [Show ID: 31548]

The National Ignition Facility (NIF) at the Lawrence Livermore National Laboratory (LLNL) is the world's largest and most powerful laser system. Experimental physicist Tammy Ma explores how and why scientists and engineers are working hard to demonstrate sustainable fusion burn - the same reaction that occurs in the sun - to one day harness as a source of limitless, clean energy. Series: "Field Trip at the Lab: Science on Saturday" [Science] [Show ID: 31523]

Now presented in Spanish: What could a stadium-sized bowl of peanuts, a shrinking elephant, and a crazed hockey player have to do with nanoscience? Those are just a few of the goofy excursions that await you when witty host Adam Smith and wacky physicist Ivan Schuller take you on an irreverent, madcap, comically corny romp into the real-life quest to create the smallest magnet ever known. [Science] [Spanish Language] [Show ID: 31453]

Lakshana Huddar, Berkeley: How to Build an Advanced Nuclear Reactor in a University Laboratory Series: "Women in Science" [Science] [Show ID: 31079]

Tianyu Liu, Santa Cruz: Enhancing the Performance of Supercapacitors Through Facilitation of Ion Diffusion Series: "Women in Science" [Science] [Show ID: 31080]

Explore the dust between the stars - and why it is so important, see how researchers explore molecules on the nanoscale to improve materials, discover why natural extremes are critical to Mediterranean ecosystems, the fate of California Oak trees, and sustaining the heritage of agriculture in California, all on this edition of On Beyond. Series: "On Beyond" [Science] [Show ID: 30667]

Blue LED and Prospects for the Lighting Industry with Shuji Nakamura. Energy Savings and Future Directions in Solid State Lighting with Steve DenBaars. Semiconductor Lasers: Vertical, Tunable, Enabling Photonic ICs with Larry Coldren. Lightwave Technologies Are Key To: Good Health, Good Communications & Good Entertainment with Waguih Ishak. Quantum Sensing and Imaging with Photoluminescent Single Spins with Ania Jayich. Tunable Biophotonics with Dan Morse. Series: "Scientific Horizons"...

The Double-Heterostructure Concept: How it Got Started with Herbert Kroemer. Silicon Photonic Integrated Circuits with John Bowers. Light, Noise, and Darkness with Amnon Yariv. “Plastic” Solar Cells with Alan Heeger. First Light: the Cosmic Microwave Background and Early Universe Physics with Eva Silverstein. Energy Awareness: Seeing Energy to Save Energy with Bill Parrish. Series: "Scientific Horizons" [Science] [Show ID: 30222]

We are visual beings, and qualities such as “insight” and “vision” describe our understanding well beyond sensory input. Light and more generally, electromagnetic radiation, has dramatically changed our knowledge of the physical world. It is also the source of the oxygen we breathe, the food we eat, and the energy that has powered the world since the beginning of the industrial revolution. Nobel Laureate Steven Chu, Professor of Physics, Professor Molecular & Cellular Physiology, Stanford...

Joseph Polchinski explores the battle in physics: either quantum mechanics must break down, or our understanding of spacetime must be wrong. The latest is the ‘firewall’ paradox: if quantum mechanics is to be saved, then an astronaut falling into a black hole will have an experience very different from what Einstein’s theory predicts. This has led to many new ideas that may lead to the unification of these two great theories. Series: "GRIT Talks" [Science] [Show ID: 30519]

UCSB’s Joseph Polchinski speaks about the search for a unified theory of the laws of physics, and the difficulty of reconciling two of the main pieces: quantum mechanics, which governs the very small, and general relativity, which governs the very large. A professor of physics and a permanent member of the Kavli Institute for Theoretical Physics, Polchinski was named UC Santa Barbara’s 2014 Faculty Research Lecturer. Series: "Scientific Horizons" [Science] [Show ID: 30118]

Holy hairball! Smart Puppy shows how small a nanodot is! Series: "UCTV Prime" [Science] [Show ID: 30081]