Alexandra Boltasseva (born January 11, 1978), is Ron And Dotty Garvin Tonjes Distinguished Professor of electrical and computer engineering at Purdue University, and editor-in-chief for The Optical Society's Optical Materials Express journal. Her research focuses on plasmonic metamaterials, manmade composites of metals that use surface plasmons to achieve optical properties not seen in nature.
Boltasseva studied her bachelor and masters in physics at the Moscow Institute of Physics and Technology, completing her research projects on quantum-well lasers at the Lebedev Physical Institute. She moved to the Technical University of Denmark for her PhD studies in nanophotonics and nanofabrication, where she wants to create a new device through innovative optical materials, advanced fabrication methods and more; working with Sergey I. Bozhevolnyi. Following her PhD, Boltasseva worked at two photonics start-up companies before returning to the Technical University of Denmark as a postdoc and subsequently an associate professor. In 2008 she moved to Purdue University and is currently the Ron And Dotty Garvin Tonjes Distinguished Professor of Electrical and Computer Engineering, as well as holding a courtesy appointment in Materials Engineering.
Prof. A. BoltassevaâÂÂs team specializes in nano- and quantum photonics, plasmonic, optical metamaterials, optical materials, and nanofabrication, focusing on how light interacts with structures at the nanoscale. Their research investigates how carefully engineered materials and structures smaller than the wavelength of light can manipulate electromagnetic waves in ways that are not possible with conventional optical components. By studying plasmonics and metamaterials, the team works to control properties such as light confinement, propagation, and absorption, enabling devices that can guide and process light at extremely small scales.
A central theme of Prof. BoltassevaâÂÂs research is the development and optimization of nanophotonic structures, beginning with material synthesis and extending to advanced device design and testing. The group explores new materials and fabrication techniques to create structures with tailored optical properties, while also incorporating machine learning and computational design methods to improve the efficiency and performance of these systems. Machine-learning-assisted optimization allows researchers to quickly analyze large design spaces and identify configurations that maximize desired optical behaviors, such as minimizing energy loss or enhancing signal control.
The ultimate goal of this work is to develop new nanophotonic platforms that operate across previously inaccessible wavelength ranges and with improved performance. By reducing optical losses and enabling tunable or reconfigurable devices that are compatible with semiconductor manufacturing, the team aims to advance technologies used in on-chip optical circuits, high-speed information processing, advanced data storage, sensing systems, medical imaging and therapy, energy conversion, and emerging quantum information technologies. Through these innovations, their research contributes to the development of next-generation photonic devices that could significantly improve the efficiency, speed, and functionality of modern optical and electronic systems.
A. Boltasseva's research earned her a number of awards:
Alexandra Boltasseva has had significant involvement with Optica (formerly the Optical Society of America) through leadership, editorial roles, and professional recognition within the optics community. She has been a member of the society since 2009 and became a senior member in 2011, reflecting her growing contributions to the field of optics and photonics.
One of her major roles within the organization was serving as Editor-in-Chief of the journal Optical Materials Express, a publication of Optica that focuses on research in optical materials, nanophotonics, and photonic devices. She assumed this position in 2016 and also served on the societyâÂÂs Board of Editors, helping guide the direction and quality of published research in optics and materials science.
In addition to editorial leadership, Boltasseva has been recognized by the society as a Fellow of Optica, an honor given to researchers who have made significant contributions to optics and photonics. She has also been active in the community through activities such as advising a student chapter of the Optical Society at Purdue University and contributing to professional events and webinars organized by the society.
Her involvement with Optica also includes receiving prestigious recognition from the organization, such as the R. W. Wood Prize, awarded for major scientific contributions to optics. This award recognized her pioneering work in plasmonics, metamaterials, and nanophotonics, fields that explore how engineered materials can manipulate light at extremely small scales.
Spouse - Vladimir Shalaev