Your search keyword '"Ernestina Schirmer"' showing total 2 results

1. Measured Interfacial Residual Strains Produced by In-Flight Ice

Author

Rebekah G. Douglass, Richard E. Kreeger, Andrew H. Work, Jonathan A. Salem, Eric H. Baker, and Ernestina Schirmer

Subjects

Stress (mechanics), Substrate (building), Icing conditions, Materials science, chemistry, Aluminium, Thermocouple, chemistry.chemical_element, Composite material, Material properties, human activities, Strain gauge, Icing

Abstract

The formation of ice on aircraft is a highly dynamic process during which ice will expand and contract upon freezing and undergoing changes in temperature. Finite Element Analysis (FEA) simulations were performed investigating the stress build up in a simplified case with uniform temperature changes between an idealized ice sample and acrylic substrate. These results were used to place strain gages on custom-built acrylic and aluminum specimens; these specimens were then placed in icing conditions such that ice was grown on top of the specimen. Tee rosettes were placed in two configurations adjacent to thermocouple sensors. It was hypothesized that the ice would expand on freezing and contract as the temperature of the interface returned to the equilibrium conditions. While results from the aluminum specimens matched this hypothesis, results from the acrylic specimens show a short period of contraction followed by a much larger expansion at the interface, indicating more complex ice growth thermodynamics than anticipated. Samples were observed to delaminate, and the data suggests that the residual strain is significant to the shedding of ice for in-flight applications.

Published

2019

2. 2-micron lasing in Tm:Lu2O3 ceramic: initial operation

Author

John Vetrovec, Eldridge Briscoe, Drew A. Copeland, Carey A. Smith, Amardeep S. Litt, David M. Filgas, and Ernestina Schirmer

Subjects

Materials science, Fabrication, business.industry, Amplifier, 02 engineering and technology, Laser, 01 natural sciences, Fluence, law.invention, 010309 optics, Quantum defect, 020210 optoelectronics & photonics, law, visual_art, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, visual_art.visual_art_medium, Optoelectronics, Ceramic, business, Lasing threshold, Diode

Abstract

We report on initial lasing of Tm:Lu2O3 ceramic laser with tunable output in the vicinity of 2 μm. Tm:Lu2O3 ceramic gain materials offer a much lower saturation fluence than the traditionally used Tm:YLF and Tm:YAG materials. The gain element is pumped by 796 nm diodes via a "2-for-1" crossrelaxation energy transfer mechanism, which enables high efficiency. The high thermal conductivity of the Lu2O3 host (~18% higher than YAG) in combination with low quantum defect of ~20% supports operation at high-average power. Konoshima’s ceramic fabrication process overcomes the scalability limits of single crystal sesquioxides. Tm:Lu2O3 offers wide-bandwidth amplification of ultrashort pulses in a chirped-pulse amplification (CPA) system. A laser oscillator was continuously tuned over a 230 nm range from 1890 to 2120 nm while delivering up to 43W QCW output with up to 37% efficiency. This device is intended for initial testing and later seeding of a multi-pass edge-pumped disk amplifier now being developed by Aqwest which uses composite Tm:Lu2O3 disk gain elements.

Published

2018