Claire F. Gmachl


Claire F. Gmachl is the Eugene Higgins Professor of Electrical Engineering at Princeton University. She is best known for her work in the development of quantum cascade lasers.

Education and honors

Gmachl earned her M.Sc. in Physics from the University of Innsbruck in 1991. She went on to receive her Ph.D. in Electrical Engineering from the Technical University of Vienna in 1995, graduating sub auspiciis Praesidentis. Her studies focused on integrated optical modulators and tunable surface-emitting lasers in the near infrared. From 1996 to 1998, she was a Post-Doctoral Member of Technical Staff at Bell Laboratories. In 1998, she became a formal Member of Technical Staff at Bell Labs and in 2002 she was named a Distinguished Member of Technical Staff, in part due to her work on the development of the quantum cascade laser. In 2003, she left Bell Labs and took a position as Associate Professor in the Department of Electrical Engineering at Princeton University, where she is currently working as a full Professor since 2007.
In 2004, Popular Science named Gmachl in its "Class of 2004 - Brilliant 10," its list of the 10 most promising scientists under 40. She went on, in September 2005, to win the MacArthur Foundation's "genius grant." Recently, she was named the director of the new Mid-InfraRed Technologies for Health and the Environment Center, funded by the National Science Foundation.

Research

Although Gmachl originally intended to study theoretical applied mathematics, her interest soon turned to theoretical applied physics, and, with the encouragement of an advisor, experimental sciences. As such, she works in the fields of optics and semiconductor laser technology. Gmachl has conceived several novel designs for solid-state lasers and her work has led to advances in the development of quantum cascade lasers.
QC lasers are a rapidly evolving class of high-performance, mid-infrared, semiconductor light sources. They offer considerable wavelength tunability, high output power, high-speed modulation capabilities and may be fabricated in several different materials systems. Gmachl has demonstrated mid-infrared light sources for a wide range of applications, including trace gas sensing in the environmental, industrial, and medical fields, and free-space optics in wireless communications. Her recent work includes the development of QC microlasers and new hybrid devices including quantum cascade structures and nonlinear components, dramatically extending the wavelength range of QC technology. These designs have applications in environmental monitoring, clinical diagnoses, spectroscopy, and chemical process control.

Awards