MEMS Single Crystal Functional Materials and Optical Fiber Graduate Student Researcher (PhD, MS)
The Department of Mechanical Engineering and Materials Science (MEMS) at the University of Pittsburgh invites applications for a graduate student researcher with an emphasis on photonic materials and single crystals, as well as fiber optic sensing technology. The graduate student position will benefit from an opportunity to partner with an interdisciplinary research group of undergraduate, graduate, and PhD level researchers, and engage with the University of Pittsburgh Infrastructure Sensing Collaboration based at the University of Pittsburgh. In addition, the student can expect close collaboration with other researchers from industry and the national laboratory system including Department of Energy, Department of Defense, and both large and small companies ranging from materials and device research to application and field testing.
The advisor will be Prof. Paul Ohodnicki, and the graduate student researcher will have full access to facilities available within the Ohodnicki Lab at the University of Pittsburgh, the extensive shared facilities of the University of Pittsburgh Infrastructure Sensing Collaboration (UPISC), and the Petersen Nanoscale Fabrication and Characterization Facility (NFCF) amongst other facilities across campus.
More information about the Ohodnicki Lab research focus and interests can be found here:
Successful applicants should display a strong interest in synthesizing and characterizing single crystal functional ceramic materials using powder processing techniques as well as single crystal growth through a state-of-art laser heated pedestal growth system, and an interest to learn and apply standard spectrophotometry and magnetometry techniques as well as to perform representative sensing experiments for fabricated fiber optic sensors. In addition, students should have a strong interest in understanding the impact of optical and photonic as well as magnetic material properties on performance as well as the origin of these properties in single crystals and optical fiber materials.
Applicants should have an undergraduate degree in materials science and engineering, applied physics, electrical engineering or a related field. Prior experience research in powder ceramics, single crystal ceramics, high temperature processing, optics, magnetics, fiber optics, material characterization, optical spectroscopy, and magnetometry is beneficial but not required. This project offers ample opportunity to develop relevant skills including single crystal growth, powder processing, x-ray diffraction, electron microscopy, optical spectroscopy, magnetometry, finite element modeling, and other optical modeling.
Anticipated project work assignments will include characterization and synthesis of optical and magnetic materials in the form of powders and single crystal fibers, fiber optic sensor devices, and characterization of both functional performance (i.e. sensor performance) and material structure and properties. In addition to conducting research, duties will also include preparing reports, performing literature reviews, supervising undergraduate students, and assisting with other projects.
Interested students should contact Prof. Paul Ohodnicki and also submit an application for the MS or PhD program.