Early Stage Innovations (ESI) 2023
Back to ESI Home Advancing Radiation-Hardened Photon Counting Sensor Technologies Advancements in Predicting Plume-Surface Interaction Environments During Propulsive Landings Advancing the Performance of Refrigeration Systems Based on the Elastocaloric Effect
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Preparations for Next Moonwalk Simulations Underway (and Underwater)
Advancing Radiation-Hardened Photon Counting Sensor Technologies
- Karl Berggren
Massachusetts Institute of Technology
Radiation hardness study of superconducting detectors and electronics - Donald Figer
Rochester Institute of Technology
Advancing Radiation-Hardened CMOS Detectors for NASA Missions
Advancements in Predicting Plume-Surface Interaction Environments During Propulsive Landings
- Laura Villafane
Auburn University
Integrating Data-Driven and Physics-Based Models for Plume-Surface Interaction Predictions - David Scarborough
University of Illinois at Urbana-Champaign
Physics-based Modeling and Tool Development for the Characterization and Uncertainty Quantification of Crater Formation and Ejecta Dynamics due to Plume-surface Interaction
Advancing the Performance of Refrigeration Systems Based on the Elastocaloric Effect
- Patrick Shamberger
Texas A&M University
Advancing Elastocaloric Refrigeration through Co-design of Materials and Systems - Nenad Miljkovic
University of Illinois at Urbana-Champaign
Continuous Bending-mode Elastocaloric Composite Refrigeration System for Compact, Lightweight, High-Efficiency Cooling
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