“I hope this is the first of many successful ventures with our academic partners as we mature this partnership and conduct more critical experiments. “Our goal is to establish a research partnership that evolves and allows us to work closely with CU Boulder in various technical areas,” Phillips said. This effort’s core APL technical team is Yo-Rhin Rhim and Samuel Slingluff, the principal investigators, and Rob Patterson, the cognizant program manager who helped implement this partnership. “Iain Boyd and his team developed a technique that characterizes the coupled effects of hypersonic air flows and the ablative material response of a TPS.” Applied Physics Letters (APL) features concise, up-to-date reports on significant new findings in applied physics. “CU Boulder has a unique modeling and simulation capability that will enable us to simulate test cases that will inform future experiment designs,” said Phillips. Research in areas related to applied physics span topics in advanced materials, integrated photonics and opto-electronics, nano-fabrication, and new device. APL will compare it to existing test results for validation. The first project milestone is for the CU Boulder team to run its software on a two-dimensional geometry with a damaged surface. “Forming these strategic partnerships with universities gives APL another way to contribute to advancing science and technology, applying it to some of the questions we want to answer and accelerating technology transition to the warfighter.” “This particular study will continue through the fiscal year, although we are looking to establish a long-term partnership with CU Boulder to investigate this type of phenomenon,” Phillips said. UCAH is a collaborative network of universities working with government, industry, national laboratories, federally funded research centers and university affiliated research centers to deliver the innovation and workforce needed to advance hypersonic flight systems supporting the national defense. “Ultimately, this will inform future TPS studies and tests to build an understanding of how TPS damage evolves under various flight conditions.”ĬU Boulder and APL are members of the University Consortium for Applied Hypersonics (UCAH), which AMDS has engaged in seeking meaningful partnerships. “We’re using computational modeling techniques to estimate the growth rate of a damaged TPS exposed to a hypersonic flow, intending to leverage the results to inform future test and evaluation activities to investigate TPS resiliency,” said Kerri Phillips, chief scientist in APL’s Air and Missile Defense Sector (AMDS). The recently formalized partnership supports an independent research and development effort to track how damage evolves in a TPS, like those used on hypersonic vehicles and spacecraft, in extreme environments. During your studies you will have the opportunity to work in cutting-edge, high-tech labs like the MESA+ Institute for Nanotechnology, the Technical Medical Centre and the Max Planck Center for Complex Fluid Dynamics.Researchers from the Johns Hopkins Applied Physics Laboratory (APL) in Laurel, Maryland, and the University of Colorado Boulder (CU Boulder) are teaming up on a project to better understand and eventually predict wear and damage affecting thermal protection systems (TPSs). You will fulfil the role of junior scientist from early on in your programme, being involved in experimental research, giving presentations and contributing to scientific articles. You will have the opportunity to tailor your programme to suit your individual interests and personal ambitions. This top-rated programme will expand your knowledge of physics as a whole, while giving you the opportunity to specialise in a field of your choice. Research performed at the physics department of the University of Twente belongs to the top of the world and the UT has many world-class researchers who will also be your lecturers during your master’s. The themes that are covered within the programme are in perfect alignment with these five research clusters. Research is spread out over five clusters, which together reflect essential real-world needs: In this Master’s programme we aim to achieve the ideal balance between 'hardcore' and engineering physics. But without recent breakthroughs in physics, the mobile phone and the laptop would have been power-guzzling machines that weigh a ton and lab-on-a-chip technology would still be science fiction. A great deal of the work done by physicists is not immediately visible. Applied Physicists use scientific principles to create or improve practical devices and systems and to contribute in many other fields. Applied Physics is all about understanding the fundamental laws of the physical world and finding ways to apply those laws in technical solutions.
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