2011 Chair's Message

The 75-faculty-strong Engineering and Applied Science (EAS) Division at Caltech may be home to the biggest group of faculty at the Institute, but it is tiny compared to the other famous engineering schools around the world. In order to compete and thrive with such numbers, we have adopted two basic principles. First, by design, we don’t cover all areas in engineering and applied science. We dynamically choose only the ones that we consider the most important and we are ready to retire the ones that are not intellectually stimulating. Our faculty does not represent a continuum of research interests and specialties. We are, in the words of my old Caltech mentors, Professors Jim Knowles and Eli Sternberg, a collection of isolated singularities. However, in order for these isolated areas of excellence to be effective, the second principle has to be introduced. This principle dictates that the barriers between disciplines, Departments, and even Divisions remain very low so that both faculty and students can cross them, if they wish, without spending unnecessary energy. This is a principle that is also shared throughout the Institute and necessitates the existence of a truly interdisciplinary culture in which turf and labels become secondary to intellectual exchange. Other major engineering schools speak of the value of interdisciplinary research; our difference is that we have practiced it since our founding over 100 years ago. It was simply critical to our survival.¹

In the above analogy, the isolated singularities of excellence represent our chosen disciplinary strengths in research and teaching while our interdisciplinary research groups and centers can be viewed as sparks created between the disciplines. These energetic sparks of interdisciplinary brilliance may or may not be short-lived, but they are triggered by our desire to tackle society’s big problems and are facilitated by low barriers to enter new fields. New challenges, such as renewable energy, and new ideas, such as bioinspired engineering, create new and sometimes unexpected sparks. Long-standing problems, such as terrestrial hazards involving both the fluid and the solid earth, represent longer-lasting sparks. I, for example—a solid mechanician and aerospace and mechanical engineer by training—now spend much of my time in research interacting with geophysicists and seismologists working on shockwave-induced ground motion generated by super-shear earthquakes. The sparks between these particular disciplines have the potential for great societal impact in California and other seismogenic areas around the world. Indeed, engineers do best when they tackle and mitigate humanity’s biggest calamities and problems.

This issue of ENGenious features a number of our faculty, alumni, and students who are tackling the biggest problems facing and challenging humanity. As you read, I encourage you to think about EAS and Caltech’s greatest achievement—the creation of new schools of thought. These schools of thought reflect our combined achievements and excellence in both research and education. It starts with the faculty’s dedication and commitment to train their students in their singularities of excellence supported by mastery of the fundamentals. Then these students become the next generation of academics, researchers, technologists, and leaders who in turn train their own students and associates, and in the process they influence industry, the economy, and even government policy and societal perceptions. They are the inheritors and carriers of both our educational and our research philosophies.

Ares Rosakis
Theodore von Kármán Professor of Aeronautics and Professor of Mechanical Engineering; Chair, Division of Engineering and Applied Science

¹One of the fruits of these strategies, sustained over decades, is that Caltech is one of the top universities worldwide. Indeed, Caltech was just rated number-one in the 2011–2012 Times Higher Education world university rankings of the top 200 universities. In addition, it has been ranked first in the subject of engineering and technology.

2010 Chair's Message

The Division of Engineering and Applied Science (EAS) at Caltech is a focused, adventurous, intense, and inspiring community of men and women devoted to problem-solving and invention. We seek nothing less that to change the world with new theoretical concepts, innovative ideas, experimental discoveries, devices, algorithms, courses, and technology transfer. It is my pleasure and honor to serve as Chair of the EAS Division, and it is my hope that you will join us in our wide pursuit of transformation and excellence.

As a student, either undergraduate or graduate, you will have the opportunity to learn from and work side-by-side with world class faculty members and colleagues. As a faculty member, you will join a small, highly decorated, and creative group of professors who are shaping the forefront of their respective fields. And as a friend and donor to EAS, you will be supporting individuals and ideas whose impact spans generations, and positively affects the lives of people around the globe, in real and unexpected ways.

What distinguishes us from our peers? I believe it is that our approach, the “Caltech-style” if you will, is to take a problem and attack it at the very fundamental levels, asking basic questions that challenge convention, and then take focused risks to obtain remarkable results. For instance, listen to Professor Ali Hajimiri, Thomas G. Myers Professor of Electrical Engineering: “The way we see it, in a few years seal-healing circuits will allow faster, cheaper, and more robust circuits, making it possible to continue Moore’s scaling law by making integrated circuits resemble living organisms in their ability to self-heal and adjust to changes in the environment.” Or Professor Erik Winfree, Professor of Computer Science, Computation and Neural Systems, and Bioengineering: “I would like to champion—as others have before me—the notion that computer science is not just about computers. It is the study of processes that generate organization.” Or Julia R. Greer, Assistant Professor of Materials Science: “We are entering a new era in materials science, where structural materials can be created not only by utilizing monolith structures, like ceramics and metals, but where the development of novel material systems with radically superior properties will be achieved through architectural control at the appropriate microstructural scale, that is, the nano-scale.”

These young men and women, and their students, are remaking the world daily, and operate in a community of camaraderie and intensity that continues to draw the best and brightest to our beautiful campus in Pasadena, nestled beneath the dynamic San Gabriel Mountains. Their challenge and world-view is epitomized by a line from Theodore von Kármán, Caltech professor and luminary, and founder of the Jet Propulsion Laboratory: “Scientists study the world as it is; Engineers create the world that has never been.”

I invite you to join us as we explore and build and imagine. Our doors are open to possibilities.

Ares Rosakis
Theodore von Kármán Professor of Aeronautics and Professor of Mechanical Engineering; Chair, Division of Engineering and Applied Science