Department of Applied Physics and Materials Science - Applied Physics

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Highlights

Bergles-Rohsenow Young Investigator Award

08-01-17

Austin Minnich, Professor of Mechanical Engineering and Applied Physics, is a recipient of the Bergles-Rohsenow Young Investigator Award in Heat Transfer from the American Society of Mechanical Engineers (ASME). The award recognizes an engineer who is under 36 years of age and is committed to pursuing research in heat transfer, and has demonstrated the potential to make significant contributions to the field.

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Professor Minnich Receives IPPA Junior Prize

07-22-17

Austin Minnich, Professor of Mechanical Engineering and Applied Physics, is a recipient of the International Photothermal and Photoacoustics Association (IPPA) Junior Prize. He received the prize for outstanding contributions to the understanding of quasiballistic thermal transport, including the development of photothermal methods to directly probe heat conduction at length scales comparable to phonon mean free paths; for demonstrating how microscopic transport properties of thermal phonons in solids may be obtained using photothermal experimental methods along with ab-initio calculations; and for advances in the mathematical treatment of quasiballistic transport using the Boltzmann equation.

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Professor Minnich Receives Young Investigator Award

05-01-15

Austin Minnich, Assistant Professor of Mechanical Engineering and Applied Physics, has won a 2015 Office of Naval Research (ONR) Young Investigator Award. The objectives of the Young Investigator Program are to attract to naval research outstanding new faculty members, to support their research, and to encourage their teaching and research careers. Professor Minnich’s award is for his proposal entitled, “Investigation of the Atomistic Mechanisms Governing Heat Conduction in Polymers.” [List of Recipients]

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Heat Transfer Sets the Noise Floor for Ultrasensitive Electronics

11-10-14

Austin Minnich, Assistant Professor of Mechanical Engineering and Applied Physics, and colleagues have identified a source of electronic noise that could affect the functioning of instruments operating at very low temperatures, such as devices used in radio telescopes and advanced physics experiments. The team's findings also suggest that it may be possible to develop engineering strategies to make phonon heat transfer more efficient at low temperatures. For example, one possibility might be to change the design of transistors so that phonon generation takes place over a broader volume. "If you can make the phonon generation more spread out, then in principle you could reduce the temperature rise that occurs," Professor Minnich says. "We don't know what the precise strategy will be yet, but now we know the direction we should be going. That's an improvement." [Caltech release]

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