Prof. Dan Wasserman
Associate Professor of Electrical and Computer Engineering
University of Texas, Austin
The mid-infrared (mid-IR) spectral range (loosely defined as the wavelengths between 3-30µm) has become a burgeoning and dynamic field of research for a variety of technologically vital applications. Nonetheless, the development of the mid-IR optical infrastructure still trails behind that of the shorter, more mature, telecom and visible wavelength ranges. This can be viewed as a drawback of mid-IR photonics research (more expensive, limited efficiency components and materials), or alternatively, as an opportunity. In particular, the mid-IR provides a design space where a wide range of engineered and intrinsic light matter interactions can be harnessed to develop a new generation of optical materials. In this talk, I will discuss recent work developing novel optoelectronic, all-dielectric, plasmonic and phononic devices and structures for mid-IR wavelength applications. In particular, I will discuss the range of phenomena which can be leveraged to demonstrate unique designer materials, mid-IR devices, and novel characterization techniques. I will cover work on new types of mid-IR sources, ENZ materials and waveguides, mid-IR filters, engineered thermal emitters, and designer plasmonic materials and structures for strong absorption and subwavelength confinement. Ultimately, I will make an effort to demonstrate that the mid-IR provides a unique materials playground for the exploration, and implementation, of a range of light-matter interactions.
Dan Wasserman is an associate professor of electrical and computer engineering (ECE) at UT Austin, where he is affiliated with the Microelectronics Research Center. Prof. Wasserman earned his Sc.B. degree in engineering/physics and history from Brown University in 1998, graduating Summa Cum Laude, Phi Beta Kappa, with Honors. He attended graduate school at Princeton, earning an NSF Graduate Fellowship, and received his master’s and doctorate in electrical engineering in 2000 and 2004, respectively. He was awarded a Princeton University Council on Science and Technology Post-Doctoral Fellowship, and spent the next years working on quantum cascade lasers and developing a hands-on optics course. In 2007, Dr. Wasserman joined the UMass Lowell faculty as an assistant professor of physics and applied physics. In 2011, Prof. Wasserman joined the ECE faculty at the UIUC, in the Micro and Nanotechnology Lab, becoming an associate professor in 2015. In 2016, he joined UT Austin. Prof. Wasserman is the recipient of the NSF CAREER award and the AFOSR Young Investigator Award, as well as the UIUC Distinguished Promotion Award, and Teaching and Advising awards and commendations at UMass and UIUC.