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Electric Drive Technologies Research: ELT223 Component Modeling, Co-Optimization, and Trade-Space Evaluation Annual Report

Neely, Jason C.; Yates, Luke; Gill, Lee; Subramania, Ganapathi S.

This project is intended to support the development of new traction drive systems that meet the targets of 100 kW/L for power electronics and 50 kW/L for electric machines with reliable operation to 300,000 miles. To meet these goals, new designs must be identified that make use of state-of-the-art and next-generation electronic materials and design methods. Designs must exploit synergies between components, for example converters designed for high-frequency switching using wide band gap (WBG) devices and ceramic capacitors. This project included: (1) a survey of available technologies; (2) investigating new technologies, that for example, reduce volume of thermal management or magnetic components; (3) the development of computer aided design tools that consider the converter volume, reliability, and electrical performance; (4) exercising the design software to evaluate performance gaps and predict the impact of certain technologies and design approaches, i.e. GaN semiconductors, ceramic capacitors, ceramic thermal management components, and select topologies; (5) building and testing hardware prototypes to validate models and concepts. The design tools enable co-optimization of the power module and passive elements and provide some design guidance. At the end of the project, new advanced computing methods, such as machine learning approaches, were considered.

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InAs nonlinear metalens for focused terahertz pulse generation

2024 Conference on Lasers and Electro-Optics, CLEO 2024

Jung, Hyunseung; Addamane, Sadhvikas J.; Luk, Ting S.; Harris, Charles T.; Subramania, Ganapathi S.; Brener, Igal; Mitrofanov, Oleg

We demonstrate an InAs-based terahertz (THz) metasurface emitter that can generate and focus THz pulses using a binary-phase Fresnel zone plate concept. The metalens emitter successfully generates a focused THz beam without additional THz optics.

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Metrics and Strategies for Design of DC Bias Resilient Transformers

IEEE Open Access Journal of Power and Energy

Prasad, Akhil; Sudhoff, Scott D.; Monson, Todd; Subramania, Ganapathi S.

Geomagnetic disturbances (GMDs) give rise to geomagnetically induced currents (GICs) on the earth's surface which find their way into power systems via grounded transformer neutrals. The quasi-dc nature of the GICs results in half-cycle saturation of the power grid transformers which in turn results in transformer failure, life reduction, and other adverse effects. Therefore, transformers need to be more resilient to dc excitation. This paper sets forth dc immunity metrics for transformers. Furthermore, this paper sets forth a novel transformer architecture and a design methodology which employs the dc immunity metrics to make it more resilient to dc excitation. This is demonstrated using a time-stepping 2D finite element analysis (FEA) simulation. It was found that a relatively small change in the core geometry significantly increases transformer resiliency with respect to dc excitation.

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Development of Vertical GaN Power Devices for Use in Electric Vehicle Drivetrains (invited)

Kaplar, Robert J.; Binder, Andrew T.; Yates, Luke; Allerman, Andrew A.; Crawford, Mary H.; Dickerson, Jeramy; Armstrong, Andrew A.; Glaser, Caleb E.; Steinfeldt, Bradley; Abate, Vincent M.; Bays, Nathan R.; Pickrell, Gregory W.; Sharps, Paul; Flicker, Jack D.; Neely, Jason C.; Rashkin, Lee J.; Gill, Lee; Goodrick, Kyle; Monson, Todd; Bock, Jonathan A.; Subramania, Ganapathi S.; Scott, Ethan; Cooper, James

Abstract not provided.

Phonon-polaritonics: Enabling powerful capabilities for infrared photonics

Nanophotonics

Foteinopoulou, Stavroula; Devarapu, Ganga C.R.; Subramania, Ganapathi S.; Krishna, Sanjay; Wasserman, Daniel

Here, we review the progress and most recent advances in phonon-polaritonics, an emerging and growing field that has brought about a range of powerful possibilities for mid- to far-infrared (IR) light. These extraordinary capabilities are enabled by the resonant coupling between the impinging light and the vibrations of the material lattice, known as phonon-polaritons (PhPs). These PhPs yield a characteristic optical response in certain materials, occurring within an IR spectral window known as the reststrahlen band. In particular, these materials transition in the reststrahlen band from a high refractive-index behavior, to a near-perfect metal behavior, to a plasmonic behavior - typical of metals at optical frequencies. When anisotropic they may also possess unconventional photonic constitutive properties thought of as possible only with metamaterials. The recent surge in two-dimensional (2D) material research has also enabled PhP responses with atomically-thin materials. Such vast and extraordinary photonic responses can be utilized for a plethora of unusual effects for IR light. Examples include sub-diffraction surface wave guiding, artificial magnetism, exotic photonic dispersions, thermal emission enhancement, perfect absorption and enhanced near-field heat transfer. Finally, we discuss the tremendous potential impact of these IR functionalities for the advancement of IR sources and sensors, as well as for thermal management and THz-diagnostic imaging.

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Results 1–25 of 129
Results 1–25 of 129
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