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12 results on '"C D Armstrong"'

1. Metrology for sub-Rayleigh-length target positioning in ∼1022 W/cm2 laser–plasma experiments

Author

E. A. Vishnyakov, A. Sagisaka, K. Ogura, T. Zh. Esirkepov, B. Gonzalez-Izquierdo, C. D. Armstrong, T. A. Pikuz, S. A. Pikuz, W. Yan, T. M. Jeong, S. Singh, P. Hadjisolomou, O. Finke, G. M. Grittani, M. Nevrkla, C. M. Lazzarini, A. Velyhan, T. Hayakawa, Y. Fukuda, J. K. Koga, M. Ishino, K. Kondo, Y. Miyasaka, A. Kon, M. Nishikino, Y. V. Nosach, D. Khikhlukha, I. P. Tsygvintsev, D. Kumar, J. Nejdl, D. Margarone, P. V. Sasorov, S. Weber, M. Kando, H. Kiriyama, Y. Kato, G. Korn, S. V. Bulanov, T. Kawachi, and A. S. Pirozhkov

Subjects
laser–plasma interaction, precise target positioning, spectroscopy, ultra-high intensity, X-rays, Applied optics. Photonics, TA1501-1820
Abstract

Tight focusing with very small f-numbers is necessary to achieve the highest at-focus irradiances. However, tight focusing imposes strong demands on precise target positioning in-focus to achieve the highest on-target irradiance. We describe several near-infrared, visible, ultraviolet and soft and hard X-ray diagnostics employed in a ∼1022 W/cm2 laser–plasma experiment. We used nearly 10 J total energy femtosecond laser pulses focused into an approximately 1.3-μm focal spot on 5–20 μm thick stainless-steel targets. We discuss the applicability of these diagnostics to determine the best in-focus target position with approximately 5 μm accuracy (i.e., around half of the short Rayleigh length) and show that several diagnostics (in particular, 3 $\omega$ reflection and on-axis hard X-rays) can ensure this accuracy. We demonstrated target positioning within several micrometers from the focus, ensuring over 80% of the ideal peak laser intensity on-target. Our approach is relatively fast (it requires 10–20 laser shots) and does not rely on the coincidence of low-power and high-power focal planes.

Published
2024
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2. Influence of spatial-intensity contrast in ultraintense laser–plasma interactions

Author

R. Wilson, M. King, N. M. H. Butler, D. C. Carroll, T. P. Frazer, M. J. Duff, A. Higginson, R. J. Dance, J. Jarrett, Z. E. Davidson, C. D. Armstrong, H. Liu, S. J. Hawkes, R. J. Clarke, D. Neely, R. J. Gray, and P. McKenna

Subjects
Medicine, Science
Abstract

Abstract Increasing the intensity to which high power laser pulses are focused has opened up new research possibilities, including promising new approaches to particle acceleration and phenomena such as high field quantum electrodynamics. Whilst the intensity achievable with a laser pulse of a given power can be increased via tighter focusing, the focal spot profile also plays an important role in the interaction physics. Here we show that the spatial-intensity distribution, and specifically the ratio of the intensity in the peak of the laser focal spot to the halo surrounding it, is important in the interaction of ultraintense laser pulses with solid targets. By comparing proton acceleration measurements from foil targets irradiated with by a near-diffraction-limited wavelength scale focal spot and larger F-number focusing, we find that this spatial-intensity contrast parameter strongly influences laser energy coupling to fast electrons. We find that for multi-petawatt pulses, spatial-intensity contrast is potentially as important as temporal-intensity contrast.

Published
2022
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3. Physiological impact of load carriage exercise: Current understanding and future research directions

Author

Mark A. Faghy, Ren‐Jay Shei, Nicola C. D. Armstrong, Mark White, and Mitch Lomax

Subjects
backpack, ergonomics, exercise tolerance, load carriage, occupational physiology, military physiology, respiratory muscles, Physiology, QP1-981
Abstract

Abstract Load carriage (LC) refers to the use of personal protective equipment (PPE) and/or load‐bearing apparatus that is mostly worn over the thoracic cavity. A commonplace task across various physically demanding occupational groups, the mass being carried during LC duties can approach the wearer's body mass. When compared to unloaded exercise, LC imposes additional physiological stress that negatively impacts the respiratory system by restricting chest wall movement and altering ventilatory mechanics as well as circulatory responses. Consequently, LC activities accelerate the development of fatigue in the respiratory muscles and reduce exercise performance in occupational tasks. Therefore, understanding the implications of LC and the effects specific factors have on physiological capacities during LC activity are important to the implementation of effective mitigation strategies to ameliorate the detrimental effects of thoracic LC. Accordingly, this review highlights the current physiological understanding of LC activities and outlines the knowledge and efficacy of current interventions and research that have attempted to improve LC performance, whilst also highlighting pertinent knowledge gaps that must be explored via future research activities.

Published
2022
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4. Enhanced electron acceleration by high-intensity lasers in extended (confined) preplasma in cone targets

Author

D. R. Rusby, G. E. Cochran, A. Aghedo, F. Albert, C. D. Armstrong, A. Haid, A. J. Kemp, S. M. Kerr, P. M. King, N. Lemos, M. J.-E. Manuel, T. Ma, A. G. MacPhee, I. Pagano, A. Pak, G. G. Scott, C. W. Siders, R. A. Simpson, M. Sinclair, S. C. Wilks, G. J. Williams, and A. J. Mackinnon

Subjects
Condensed Matter Physics
Abstract

We report on experimental results from a high-intensity laser interaction with cone targets that increase the number (×3) and temperature (×3) of the measured hot electrons over a traditional planar target. This increase is caused by a substantial increase in the plasma density within the cone target geometry, which was induced by 17 ± 9 mJ prepulse that arrived 1.5 ns prior to the main high intensity (>1019 W/cm2). Three-dimensional hydrodynamic simulations are conducted using hydra which show that the cone targets create substantially longer and denser plasma than planar targets due to the geometric confinement of the expanding plasma. The density within the cone is a several hundred-micron plasma “shelf” with a density of approximately 1020 n e/cc. The hydra simulated plasma densities are used as the initial conditions for two-dimensional particle-in-cell simulations using EPOCH. These simulations show that the main acceleration mechanism is direct-laser-acceleration, with close agreement between experimentally measured and simulated electron temperatures. Further analysis is conducted to investigate the acceleration of the electrons within the long plasma generated within a compound parabolic concentrator by the prepulse.

Published
2023

6. An Overview of the Fiber Optic Sensing System for Hydrogen Leak Detection in the Space Shuttle Discovery on STS-96

Author

K. L. Woodman, Jason P. Moore, Brooks A. Childers, Y. T. Peng, C. D. Armstrong, L. J. Coen, N. C. Coffey, A. L. Cook, K. G. Vipavetz, J. E. Wells, S. K. Stover, J. K. Diamond, M. E. Froggatt, E. M. Riley, P. T. Huynh, and James S. Sirkis

Subjects
Engineering, Optical fiber, business.industry, Fiber optic sensor, law, Fiber laser, Space Shuttle, Leak detection, Aerospace engineering, business, Sensing system, Remote sensing, law.invention
Abstract

The Fiber Optic Sensor System(FOSS) is an experimental subsy stem in the Integrated Vehicle Health Monitoring(IVHM) aspect of the Spa ce Shuttle Upgrades effort based at Kennedy Space Center.

Published
1999

7. Age-dependent susceptibility of neonatal rats to group B streptococcal type III infection: correlation of severity of infection and response of myeloid pools

Author

Joseph A. Bellanti, Barbara J. Zeligs, Judith B. Walser, and C D Armstrong

Subjects
Cell type, Aging, Myeloid, Neutrophils, Immunology, Spleen, Biology, medicine.disease_cause, Microbiology, Group B, Persistence (computer science), Andrology, Leukocyte Count, Bone Marrow, Streptococcal Infections, medicine, Animals, Inflammation, Phagocytes, Streptococcus, Rats, Inbred Strains, Peripheral, Rats, Kinetics, Infectious Diseases, medicine.anatomical_structure, Parasitology, Bone marrow, Disease Susceptibility, Research Article
Abstract

A distinct age-dependent susceptibility to group B streptococcus type III (GBS) was demonstrated, utilizing a neonatal rat model. The most dramatic changes in susceptibility occurred within the first 7 days of postnatal life. To further investigate this susceptibility, experiments were performed utilizing two age groups of rats: (i) animals within the first 24 h of life (NB) and (ii) 7-day-old animals (7d). The infective dosage used was 10(4) GBS per g of body weight, a dose lethal to 100% of NB but only to 15% of 7d. The responses of the myeloid cells in the peripheral blood, spleen, and bone marrow were evaluated at intervals during the first 24 h post-GBS infection. The susceptibility of the NB to GBS appeared to be associated with a number of events, including smaller base-line levels of myeloid elements particularly in the bone marrow, a lag of at least 2 h in their initial response to infection, and an inability to maintain the myeloid pools. The band form of neutrophils appeared to be the predominant cell type in both total number and rapidity of response to infection. Moreover, an initial depletion of this band form was seen in both groups, which returned to base-line levels with recovery in 7d but persisted until death in NB animals. Similarly, shifts in numbers of peripheral nucleated erythrocytes appeared to reflect changes in the myeloid storage pools, with numbers of nucleated erythrocytes significantly decreasing in 7d animals with recovery in contrast to persistence in NB until death. Therefore, shifts in these cells in peripheral blood during infection appear to reflect the state of myeloid storage pools which parallel disease outcome.

Published
1982

12. Bremsstrahlung emission profile from intense laser-solid interactions as a function of laser focal spot size.

Author

C D Armstrong, C M Brenner, E Zemaityte, G G Scott, D R Rusby, G Liao, H Liu, Y Li, Z Zhang, Y Zhang, B Zhu, P Bradford, N C Woolsey, P Oliveira, C Spindloe, W Wang, P McKenna, and D Neely

Subjects
*BREMSSTRAHLUNG, *X-ray emission spectroscopy, *ELECTRON transport, *RADIOGRAPHY, *ELECTRONS
Abstract

The bremsstrahlung x-ray emission profile from high intensity laser-solid interactions provides valuable insight to the internal fast electron transport. Using penumbral imaging, we characterise the spatial profile of this bremsstrahlung source as a function of laser intensity by incrementally increasing the laser focal spot size on target. The experimental data shows a dual-source structure; one from the central channel of electrons, the second a larger substrate source from the recirculating electron current. The results demonstrate than an order of magnitude improvement in the intensity contrast between the two x-ray sources is achieved with a large focal spot, indicating preferable conditions for applications in radiography. An analytical model is derived to describe the transport of suprathermal electron populations that contribute to substrate and central channel sources through a target. The model is in good agreement with the experimental results presented here and furthermore is applied to predict laser intensities for achieving optimum spatial contrast for a variety of target materials and thicknesses. [ABSTRACT FROM AUTHOR]

Published
2019
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