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46 results on '"Frayer, Daniel K."'

1. Shock state distributions in porous tantalum and characterization with multipoint velocimetry.

Author

Moore, Nathan W., Carleton, James B., Wise, Jack L., McCoy, Chad A., Vackel, Andrew, Bolintineanu, Dan S., Kaufman, Morris, Kracum, Michael R., Battaile, Corbett C., Rodgers, Theron M., Sanchez, Jason J., Mesh, Mikhail, Olson, Aaron J., Scherzinger, William M., Powell, Michael J., Payne, Sheri L., Pokharel, Reeju, Brown, Donald W., and Frayer, Daniel K.

Subjects
TANTALUM films, TANTALUM, VELOCIMETRY, THEORY of wave motion, POROUS materials
Abstract

Heterogenous materials under shock compression can be expected to reach different shock states throughout the material according to local differences in microstructure and the history of wave propagation. Here, a compact, multiple-beam focusing optic assembly is used with high-speed velocimetry to interrogate the shock response of porous tantalum films prepared through thermal-spray deposition. The distribution of particle velocities across a shocked interface is compared to results obtained using a set of defocused interferometric beams that sampled the shock response over larger areas. The two methods produced velocity distributions along the shock plateau with the same mean, while a larger variance was measured with narrower beams. The finding was replicated using three-dimensional, mesoscopically resolved hydrodynamics simulations of solid tantalum with a pore structure mimicking statistical attributes of the material and accounting for radial divergence of the beams, with agreement across several impact velocities. Accounting for pore morphology in the simulations was found to be necessary for replicating the rise time of the shock plateau. The validated simulations were then used to show that while the average velocity along the shock plateau could be determined accurately with only a few interferometric beams, accurately determining the width of the velocity distribution, which here was approximately Gaussian, required a beam dimension much smaller than the spatial correlation lengthscale of the velocity field, here by a factor of ∼30×, with implications for the study of other porous materials. [ABSTRACT FROM AUTHOR]

Published
2023
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2. Optical relays for imaging scintillators

Author

Malone, Robert M., primary, Baker, Stuart A., additional, Frayer, Daniel K., additional, Haines, Todd J., additional, Joyce, Kevin T., additional, Kaufman, Morris I., additional, Manhart, Paul K., additional, Walters, Katherine L., additional, and Zepeda-Alarcon, Eloisa, additional

Published
2023
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4. Optical relays for imaging scintillators

Author

Johnson, R. Barry, Mahajan, Virendra N., Thibault, Simon, Malone, Robert M., Baker, Stuart A., Frayer, Daniel K., Haines, Todd J., Joyce, Kevin T., Kaufman, Morris I., Manhart, Paul K., Walters, Katherine L., and Zepeda-Alarcon, Eloisa

Published
2023
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9. Guidelines for predicting stress in cemented doublets undergoing temperature change: theory, practice, and data.

Author

Kaufman, Morris I., Frayer, Daniel K., Malone, Robert M., and Light, Brandon B.

Subjects
*THERMAL strain, *STRESS concentration, *FAILURE mode & effects analysis, *THERMAL expansion, *DIAMETER, *TEMPERATURE
Abstract

This work explores quick predictive methods for calculating potentially risky stresses and deflections in cemented doublets experiencing temperature change that agree well with finite element analysis. There are three failure modes of interest: cohesive failure of the adhesive, delamination (surface bond failure or debonding), and glass fracture. Adhesive theory, confirmed by finite element analysis, predicts stress singularities that complicate interpretation of the stress calculations. The presence of a stress singularity indicates the breakdown of linear elastic assumptions, but damage initiation and stress singularities are related. The authors find that geometry details near a bond edge can exacerbate or minimize damage initiation and stress concentrations. Because the interpretation of the stress results is complicated, the authors investigated predicted stresses in doublets that have been successfully tested between −40°C and 85°C. This study found that the thermal strain (ΔT·Δα) should be less than 189 ppm, where ΔT is the temperature excursion and Δα is the difference in the two glass coefficients of thermal expansion. If the thermal strain is equal to or greater than 189 ppm, further analysis and testing is warranted. But the authors also show that the fabrication process can significantly influence stress failure, particularly with large diameter doublets. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Low distortion lens design for large scintillators

Author

Malone, Robert M., primary, Frayer, Daniel K., primary, Kaufman, Morris I., primary, Manhart, Paul K., primary, Gautier, Donald C., primary, Lattimore, Brandon M., primary, Hunter, James F., primary, and Vansyoc, Kelley G., primary

Published
2017
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17. An Optical Scattering Experiment to Measure the Timing of X-ray Converter Target Debris in the DARHT II Accelerator

Author

Johnson, Jeffrey B., Schulze, Martin E., Coleman, Joshua E., and Frayer, Daniel K.

Abstract

The DARHT II accelerator utilizes a fast closing vacuum valve to block x-ray converter target debris from entering the accelerator. An optical scattering diagnostic was developed to measure the arrival time of the debris at the fast valve to verify that the valve closure time is adequate to block the debris.

Published
2015

20. Improving the time response of a gamma/neutron liquid detector

Author

Malone, Robert M., additional, Buckles, Robert A., additional, DeYoung, Anemarie, additional, Garza, Irene, additional, Frayer, Daniel K., additional, Kaufman, Morris I., additional, Morgan, George L., additional, Obst, Andrew W., additional, Rundberg, Robert S., additional, Tinsley, Jim, additional, Waltman, Tom B., additional, and Yuan, Vincent W., additional

Published
2016
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21. Telecentric zoom lens designed for the cygnus x-ray source

Author

Malone, Robert M., Baker, Stuart A., Brown, Kristina K., Curtis, Alden H., Esquibel, David L., Frayer, Daniel K., Frogget, Brent C., Frogget, K. G., Kaufman, Morris I., Smith, Andrew S., Tibbitts, Aric, Garten, James R., Howe, Russell A., Huerta, Joe A., McGillivray, Kevin D., Droemer, Darryl W., Crain, M. D., Lutz, Stephen S., Haines, Todd J., and King, Nicholas S. P.

Abstract

n/a

Published
2013

22. Zoom lens design for tilted objects

Author

Malone, Robert M., additional, Frayer, Daniel K., additional, Kaufman, Morris I., additional, Leffler, Heather R., additional, McGillivray, Kevin D., additional, Meidinger, Alfred, additional, and Phillips, David H., additional

Published
2015
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26. Telecentric zoom lens designed for the cygnus x-ray source

Author

Malone, Robert M., primary, Baker, Stuart A., additional, Brown, Kristina K., additional, Curtis, Alden H., additional, Esquibel, David L., additional, Frayer, Daniel K., additional, Frogget, Brent C., additional, Kaufman, Morris I., additional, Smith, Andrew S., additional, Tibbitts, Aric, additional, Garten, James R., additional, Howe, Russell A., additional, Huerta, Joe A., additional, McGillivray, Kevin D., additional, Droemer, Darryl W., additional, Lutz, Stephen S., additional, Haines, Todd J., additional, and King, Nicholas S. P., additional

Published
2013
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27. Design and assembly of a telecentric zoom lens for the Cygnus x-ray source

Author

Malone, Robert M., primary, Baker, Stuart A., additional, Brown, Kristina K., additional, Curtis, Alden H., additional, Esquibel, David L., additional, Frayer, Daniel K., additional, Frogget, Brent C., additional, Furlanetto, Michael R., additional, Garten, James R., additional, Haines, Todd J., additional, Howe, Russell A., additional, Huerta, Joe A., additional, Kaufman, Morris I., additional, King, Nickolas S. P., additional, Lutz, Stephen S., additional, McGillivray, Kevin D., additional, and Smith, Andrew S., additional

Published
2012
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29. A fisheye lens as a photonic Doppler velocimetry probe

Author

Frogget, Brent C., primary, Cata, Brian M., additional, Cox, Brian C., additional, DeVore, Douglas O., additional, Esquibel, David L., additional, Frayer, Daniel K., additional, Furlanetto, Michael R., additional, Holtkamp, David B., additional, Kaufman, Morris I., additional, Malone, Robert M., additional, and Romero, Vincent T., additional

Published
2012
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30. Design, assembly, and testing of a photon Doppler velocimetry probe

Author

Malone, Robert M., primary, Briggs, Matthew E., additional, Cata, Brian M., additional, Cox, Brian C., additional, Daykin, Edward P., additional, DeVore, Douglas O., additional, Esquibel, David L., additional, Frayer, Daniel K., additional, Frogget, Brent C., additional, Furlanetto, Michael R., additional, Gallegos, Cenobio H., additional, Holtkamp, David B., additional, Kaufman, Morris I., additional, McGillivray, Kevin D., additional, Pazuchanics, Peter, additional, Primas, Lori E., additional, Romero, Vincent T., additional, Shinas, Michael A., additional, and Sorenson, Danny S., additional

Published
2011
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32. Design, construction, alignment, and calibration of a compact velocimetry experiment

Author

Kaufman, Morris I., primary, Malone, Robert M., additional, Frogget, Brent C., additional, Esquibel, David L., additional, Romero, Vincent T., additional, Lare, Gregory A., additional, Briggs, Bart, additional, Iverson, Adam J., additional, Frayer, Daniel K., additional, DeVore, Douglas, additional, Cata, Brian, additional, Holtkamp, David B., additional, Wilke, Mark D., additional, King, Nick S. P., additional, Furlanetto, Michael R., additional, Briggs, Matthew E., additional, and Furnish, Michael D., additional

Published
2007
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36. Integrated optical toxin sensor

Author

Kelly, Dan, primary, Song, Xuedong, additional, Frayer, Daniel K., additional, Mendes, Sergio B., additional, Peyghambarian, Nasser, additional, Swanson, Basil I., additional, and Grace, Karen M., additional

Published
1999
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42. Low distortion lens design for large scintillators

Author

Clark, Peter P., Muschaweck, Julius A., Pfisterer, Richard N., Rogers, John R., Malone, Robert M., Frayer, Daniel K., Kaufman, Morris I., Manhart, Paul K., Gautier, D. C., Hunter, James F., Lattimore, Brandon M., and Vansyoc, Kelley G.

Published
2017
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45. Zoom lens design for tilted objects

Author

Betensky, Ellis, Yamanashi, Takanori, Malone, Robert M., Frayer, Daniel K., Kaufman, Morris I., Leffler, Heather R., McGillivray, Kevin D., Meidinger, Alfred, and Phillips, David H.

Published
2015
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46. Design, assembly, and testing of a photon Doppler velocimetry probe

Author

Malone, Robert M., Briggs, Matthew E., Cata, Brian M., Cox, Brian C., Daykin, Edward P., DeVore, Douglas O., Esquibel, David L., Frayer, Daniel K., Frogget, Brent C., Furlanetto, Michael R., Gallegos, Cenobio H., Holtkamp, David B., Kaufman, Morris I., McGillivray, Kevin D., Pazuchanics, Peter, Primas, Lori E., Romero, Vincent T., Shinas, Michael A., and Sorenson, Danny S.

Abstract

A novel fiber-optic probe measures the velocity distribution of an imploding surface along many lines of sight. Reflected light from each spot on the moving surface is Doppler shifted with a small portion of this light propagating backwards through the launching fiber. The reflected light is mixed with a reference laser in a technique called photon Doppler velocimetry, providing continuous time records. Within the probe, a matrix array of 56 single-mode fibers sends light through an optical relay consisting of three types of lenses. Seven sets of these relay lenses are grouped into a close-packed array allowing the interrogation of seven regions of interest. A six-faceted prism with a hole drilled into its center directs the light beams to the different regions. Several types of relay lens systems have been evaluated, including doublets and molded aspheric singlets. The optical design minimizes beam diameters and also provides excellent imaging capabilities. One of the fiber matrix arrays can be replaced by an imaging coherent bundle. This close-packed array of seven relay systems provides up to 476 beam trajectories. The pyramid prism has its six facets polished at two different angles that will vary the density of surface point coverage. Fibers in the matrix arrays are angle polished at 8°to minimize back reflections. This causes the minimum beam waist to vary along different trajectories. Precision metrology on the direction cosine trajectories is measured to satisfy environmental requirements for vibration and temperature.

Published
2011
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