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1. Observations of pressure anisotropy effects within semi-collisional magnetized plasma bubbles

Author: E. R. Tubman, A. S. Joglekar, A. F. A. Bott, M. Borghesi, B. Coleman, G. Cooper, C. N. Danson, P. Durey, J. M. Foster, P. Graham, G. Gregori, E. T. Gumbrell, M. P. Hill, T. Hodge, S. Kar, R. J. Kingham, M. Read, C. P. Ridgers, J. Skidmore, C. Spindloe, A. G. R. Thomas, P. Treadwell, S. Wilson, L. Willingale, and N. C. Woolsey
Subjects: Science
Abstract: Magnetic fields can be reorganized by plasma flows and lead to effects such as magnetic reconnection. Here the authors explore the evolution of magnetized-plasma bubbles in a semi-collisional regime and the role of pressure anisotropy in influencing the flow of the laser-produced plasma.
Published: 2021
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2. A review of beluga (Delphinapterus leucas) sexual behavior and reproductive physiology leading to conception

Author: Heather M. Manitzas Hill, Malin K. Lilley, Jackson R. Ham, and Todd Robeck
Subjects: White whale, Reproduction, Mate choice, Physiology, Anatomy, Courtship, Zoology, QL1-991, QH471-489
Abstract: This review summarizes the available literature on the knowledge of reproduction in white whales or belugas (Delphinapterus leucas). We discuss reproductive anatomy, physiology, endocrinology, and behavior prior to conception. Following a description of these basic reproductive parameters for each sex, the review describes the mating system of belugas as it is currently understood and summarizes the ontogeny of reproductive behavior and its relationship with hormones. Finally, we highlight gaps that currently exist in our functional understanding of reproductive behavior in belugas. Future research emphasizes the need to understand mate choice in belugas and how it manifests across the lifespan and potentially settings. Specifically, does the quality of belugas’ display behaviors influence reproductive success? Managing wild populations of belugas and caring for belugas in human care both benefit from the knowledge that can be gained from the research topics discussed in this review.
Published: 2024
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3. Observations of Pressure Anisotropy Effects within Semi-Collisional Magnetized-Plasma Bubbles

Author: Tubman, E. R., Joglekar, A. S., Bott, A. F. A., Borghesi, M., Coleman, B., Cooper, G., Danson, C. N., Durey, P., Foster, J. M., Graham, P., Gregori, G., Gumbrell, E. T., Hodge, M. P. Hill. T., Kar, S., Kingham, R. J., Read, M., Ridgers, C. P., Skidmore, J., Spindloe, C., Thomas, A. G. R., Treadwell, P., Wilson, S., Willingale, L., and Woolsey, N. C.
Subjects: Physics - Plasma Physics
Abstract: Magnetized plasma interactions are ubiquitous in astrophysical and laboratory plasmas. Various physical effects have been shown to be important within colliding plasma flows influenced by opposing magnetic fields, however, experimental verification of the mechanisms within the interaction region has remained elusive. Here we discuss a laser-plasma experiment whereby experimental results verify that Biermann battery generated magnetic fields are advected by Nernst flows and anisotropic pressure effects dominate these flows in a reconnection region. These fields are mapped using time-resolved proton probing in multiple directions. Various experimental, modelling and analytical techniques demonstrate the importance of anisotropic pressure in semi-collisional, high-$\beta$ plasmas, causing a reduction in the magnitude of the reconnecting fields when compared to resistive processes. Anisotropic pressure dynamics are crucial in collisionless plasmas, but are often neglected in collisional plasmas. We show pressure anisotropy to be essential in maintaining the interaction layer, redistributing magnetic fields even for semi-collisional, high energy density physics (HEDP) regimes
Published: 2020

4. Tools for assessing health research partnership outcomes and impacts: a systematic review

Author: K. J. Mrklas, J. M. Boyd, S. Shergill, S. Merali, M. Khan, L. Nowell, A. Goertzen, L. M. Pfadenhauer, K. Paul, K. M. Sibley, L. Swain, M. Vis-Dunbar, M. D. Hill, S. Raffin-Bouchal, M. Tonelli, and I. D. Graham
Subjects: Health research partnerships, Evaluation tools, Psychometrics, Acceptability, Systematic review, Public aspects of medicine, RA1-1270
Abstract: Abstract Objective To identify and assess the globally available valid, reliable and acceptable tools for assessing health research partnership outcomes and impacts. Methods We searched Ovid MEDLINE, Embase, CINAHL Plus and PsycINFO from origin to 2 June 2021, without limits, using an a priori strategy and registered protocol. We screened citations independently and in duplicate, resolving discrepancies by consensus and retaining studies involving health research partnerships, the development, use and/or assessment of tools to evaluate partnership outcomes and impacts, and reporting empirical psychometric evidence. Study, tool, psychometric and pragmatic characteristics were abstracted using a hybrid approach, then synthesized using descriptive statistics and thematic analysis. Study quality was assessed using the quality of survey studies in psychology (Q-SSP) checklist. Results From 56 123 total citations, we screened 36 027 citations, assessed 2784 full-text papers, abstracted data from 48 studies and one companion report, and identified 58 tools. Most tools comprised surveys, questionnaires and scales. Studies used cross-sectional or mixed-method/embedded survey designs and employed quantitative and mixed methods. Both studies and tools were conceptually well grounded, focusing mainly on outcomes, then process, and less frequently on impact measurement. Multiple forms of empirical validity and reliability evidence was present for most tools; however, psychometric characteristics were inconsistently assessed and reported. We identified a subset of studies (22) and accompanying tools distinguished by their empirical psychometric, pragmatic and study quality characteristics. While our review demonstrated psychometric and pragmatic improvements over previous reviews, challenges related to health research partnership assessment and the nascency of partnership science persist. Conclusion This systematic review identified multiple tools demonstrating empirical psychometric evidence, pragmatic strength and moderate study quality. Increased attention to psychometric and pragmatic requirements in tool development, testing and reporting is key to advancing health research partnership assessment and partnership science. PROSPERO CRD42021137932
Published: 2023
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5. Systematic investigation of imprinted gene expression and enrichment in the mouse brain explored at single-cell resolution

Author: M. J. Higgs, M. J. Hill, R. M. John, and A. R. Isles
Subjects: Genomic Imprinting, Single Cell Genomics, Imprinted Gene Network, Neuroendocrine, Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract: Abstract Background Although a number of imprinted genes are known to be highly expressed in the brain, and in certain brain regions in particular, whether they are truly over-represented in the brain has never been formally tested. Using thirteen single-cell RNA sequencing datasets we systematically investigated imprinted gene over-representation at the organ, brain region, and cell-specific levels. Results We established that imprinted genes are indeed over-represented in the adult brain, and in neurons particularly compared to other brain cell-types. We then examined brain-wide datasets to test enrichment within distinct brain regions and neuron subpopulations and demonstrated over-representation of imprinted genes in the hypothalamus, ventral midbrain, pons and medulla. Finally, using datasets focusing on these regions of enrichment, we identified hypothalamic neuroendocrine populations and the monoaminergic hindbrain neurons as specific hotspots of imprinted gene expression. Conclusions These analyses provide the first robust assessment of the neural systems on which imprinted genes converge. Moreover, the unbiased approach, with each analysis informed by the findings of the previous level, permits highly informed inferences about the functions on which imprinted gene expression converges. Our findings indicate the neuronal regulation of motivated behaviours such as feeding and sleep, alongside the regulation of pituitary function, as functional hotspots for imprinting. This adds statistical rigour to prior assumptions and provides testable predictions for novel neural and behavioural phenotypes associated with specific genes and imprinted gene networks. In turn, this work sheds further light on the potential evolutionary drivers of genomic imprinting in the brain.
Published: 2022
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6. Venular amyloid accumulation in transgenic Fischer 344 Alzheimer’s disease rats

Author: J. Bishay, T. L. Beckett, A. Y. Lai, M. E. Hill, D. McMahon, and J. McLaurin
Subjects: Medicine, Science
Abstract: Abstract Strong evidence demonstrates a significant association between cerebral amyloid angiopathy (CAA) and Alzheimer’s disease (AD). For this reason, interest in understanding the underlying vascular pathologies that contribute to AD remain. CAA research has primarily focused on arterioles and capillaries, overlooking the draining venules. Therefore, this study sought to examine venular amyloid pathology and its relationship to arteriolar amyloidosis throughout AD progression in the TgF344-AD rat model. Antibodies targeting the amyloid-beta peptide (Aβ) sequence suggest morphological differences between arteriolar and venular amyloid. Mass spectrometric analyses of isolated cortical parenchymal plaques, arteriolar and venular amyloid demonstrated presence of Aβ in all three samples, as well as proteins known to be associated with AD. Histopathological analysis indicates a significant age effect for both arteriolar and venular amyloid accumulation, with accumulation initiated in the somatosensory cortex followed by the motor and cingulate cortex. Lastly, significant arteriolar amyloid accumulates relative to venular amyloid deposition in AD progression. Overall, understanding venular and arteriolar amyloid pathology provides insight into the complex connection between CAA and AD.
Published: 2022
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7. Parker Solar Probe Observations of Energetic Particles in the Flank of a Coronal Mass Ejection Close to the Sun

Author: N. A. Schwadron, Stuart D. Bale, J. Bonnell, A. Case, M. Shen, E. R. Christian, C. M. S. Cohen, A. J. Davis, M. I. Desai, K. Goetz, J. Giacalone, M. E. Hill, J. C. Kasper, K. Korreck, D. Larson, R. Livi, T. Lim, R. A. Leske, O. Malandraki, D. Malaspina, W. H. Matthaeus, D. J. McComas, R. L. McNutt Jr., R. A. Mewaldt, D. G. Mitchell, J. T. Niehof, M. Pulupa, Francesco Pecora, J. S. Rankin, C. Smith, E. C. Stone, J. R. Szalay, A. Vourlidas, M. E. Wiedenbeck, and P. Whittlesey
Subjects: Solar coronal mass ejections, Solar energetic particles, Solar magnetic fields, Solar flares, Astrophysics, QB460-466
Abstract: We present an event observed by Parker Solar Probe (PSP) at ∼0.2 au on 2022 March 2 in which imaging and in situ measurements coincide. During this event, PSP passed through structures on the flank of a streamer blowout coronal mass ejection (CME) including an isolated flux tube in front of the CME, a turbulent sheath, and the CME itself. Imaging observations and in situ helicity and principal variance signatures consistently show the presence of flux ropes internal to the CME. In both the sheath and the CME interval, the distributions are more isotropic, the spectra are softer, and the abundance ratios of Fe/O and He/H are lower than those in the isolated flux tube, and yet elevated relative to typical plasma and solar energetic particle abundances. These signatures in the sheath and the CME indicate that both flare populations and those from the plasma are accelerated to form the observed energetic particle enhancements. In contrast, the isolated flux tube shows large streaming, hard spectra, and large Fe/O and He/H ratios, indicating flare sources. Energetic particle fluxes are most enhanced within the CME interval from suprathermal through energetic particle energies (∼keV to >10 MeV), indicating particle acceleration, as well as confinement local to the closed magnetic structure. The flux-rope morphology of the CME helps to enable local modulation and trapping of energetic particles, in particular along helicity channels and other plasma boundaries. Thus, the CME acts to build up energetic particle populations, allowing them to be fed into subsequent higher-energy particle acceleration throughout the inner heliosphere where a compression or shock forms on the CME front.
Published: 2024
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8. IS⊙IS Solar γ-Ray Measurements: Initial Observations and Calibrations

Author: J. G. Mitchell, G. A. de Nolfo, E. R. Christian, R. A. Leske, J. M. Ryan, J. T. Vievering, M. E. Hill, A. W. Labrador, M. E. Wiedenbeck, D. J. McComas, C. M. S. Cohen, R. L. McNutt Jr., R. A. Mewaldt, D. G. Mitchell, J. S. Rankin, and N. A. Schwadron
Subjects: Solar flares, Solar activity, Solar coronal mass ejections, Solar energetic particles, Solar gamma-ray emission, Solar particle emission, Astrophysics, QB460-466
Abstract: High-energy neutral solar radiation in the form of γ -rays and neutrons is produced as secondary products in solar flares. The characteristics of this emission can provide key information regarding the energization of charged particles, particularly when primary particles remain trapped in the corona. The Integrated Science Investigation of the Sun (IS⊙IS) suite on Parker Solar Probe is composed of instruments primarily intended to measure energetic charged particles. However, the High Energy Telescope (HET) in IS⊙IS was also designed with a supplementary neutral mode intended to measure γ -rays and neutrons. HET observed its first clear solar γ -ray event in connection with a hard X-ray flare, the eruption of a coronal mass ejection, and a solar energetic particle event on 2022 September 5. The X-ray spectral shape was observed to harden over the course of the event, culminating with the observation of γ -rays by HET. A coincident enhancement in the lower-energy Energetic Particle Instrument (EPI-Lo) was also observed, likely produced by incident solar γ -rays despite the EPI-Lo instrument not having any special neutral measurement capabilities. We use Monte Carlo modeling to reconstruct the incident γ -ray spectrum based on the measured spectrum to demonstrate that the combination of IS⊙IS instruments can measure hard X-rays and γ -rays from ∼60 keV–7 MeV. Despite the fact that this is a supplemental science goal of the mission, the capability of the IS⊙IS instruments to measure γ -rays is important for the study of this population due to the very limited instruments currently observing the Sun in γ -rays.
Published: 2024
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9. Observations of the 2022 September 5 Solar Energetic Particle Event at 15 Solar Radii

Author: C. M. S. Cohen, R. A. Leske, E. R. Christian, A. C. Cummings, G. A. de Nolfo, M. I. Desai, J. Giacalone, M. E. Hill, A. W. Labrador, D. J. McComas, R. L. McNutt Jr., R. A. Mewaldt, D. G. Mitchell, J. G. Mitchell, G. D. Muro, J. S. Rankin, N. A. Schwadron, T. Sharma, M. M. Shen, J. R. Szalay, M. E. Wiedenbeck, Z. G. Xu, O. Romeo, A. Vourlidas, S. D. Bale, M. Pulupa, J. C. Kasper, D. E. Larson, R. Livi, and P. Whittlesey
Subjects: Solar energetic particles, Solar coronal mass ejection shocks, Heliosphere, Astrophysics, QB460-466
Abstract: On 2022 September 5, Parker Solar Probe (Parker) observed a large solar energetic particle (SEP) event at the unprecedented distance of only 15 R _S from the Sun. The observations from the Integrated Science Investigation of the Sun (IS⊙IS) obtained over the course of this event are remarkably rich, and an overview is presented here. IS⊙IS is capable of measuring ions from 20 keV to over 100 MeV nuc ^−1 and electrons from 30 keV to 6 MeV; here, we primarily focus on the proton and helium measurements above 80 keV. Among the surprising results are evidence of inverse velocity dispersion at energies above 1 MeV during the onset of the event, a sharp decrease in the energetic particle intensities at all energies at the interplanetary shock crossing, and repeated short durations of highly anisotropic sunward flow. Many changes in the SEP intensities, anisotropy, and spectral steepness are coincident with solar wind structure boundaries identified using the Parker solar wind magnetic field and plasma data. However, there are significant changes that are not correlated with any clearly visible solar wind variation. The observations presented here serve as an introduction to a complex event with numerous opportunities for future, more in-depth studies.
Published: 2024
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10. Likely Common Coronal Source of Solar Wind and 3He-enriched Energetic Particles: Uncoupled Transport from the Low Corona to 0.2 au

Author: D. G. Mitchell, M. E. Hill, D. J. McComas, C. M. S. Cohen, N. A. Schwadron, P. S. Mostafavi, W. H. Matthaeus, N. E. Raouafi, S. T. Al-Nussirat, D. E. Larson, A. Rahmati, J. C. Kasper, P. L. Whittlesey, R. Livi, S. D. Bale, M. Pulupa, J. Giacalone, R. L. McNutt Jr., E. R. Christian, M. E. Wiedenbeck, and T. Sharma
Subjects: Solar energetic particles, Solar physics, Solar abundances, Solar wind, Solar activity, Astrophysics, QB460-466
Abstract: Parker Solar Probe (PSP) observations of a small dispersive event on 2022 February 27 and 28 indicate scatter-free propagation as the dominant transport mechanism between the low corona and greater than 35 solar radii. The event occurred during unique orbital conditions that prevailed along specific flux tubes that PSP encountered repeatedly between 25 and 35 R _s during outbound orbit 11. This segment of the PSP orbit exhibits almost stationary angular motion relative to the rotating solar surface, such that in the rotating frame, PSP’s motion is essentially radial. The time dispersion often observed in impulsive solar energetic particle (SEP) events continues in this case down to velocities including the core solar-wind ion velocities. Especially at the onset of this event, the ^3 He content is much larger than the usual SEP abundances seen in the energy range from ∼100 keV to several MeV for helium. Later in the event, iron is enhanced. The compositional signatures suggest this to be an example of an acceleration mechanism for generating the seed energetic particles required by shock (or compression) acceleration models in SEP events to account for the enrichment of various species above solar abundances in such events. A preliminary search of similar orbital conditions over the PSP mission has not revealed additional such events, although favorable conditions (isolated impulsive acceleration and well-ordered magnetic field connection with minimal magnetic field fluctuation) that would be required are infrequently realized, given the small fraction of the PSP trajectory that meets these observation conditions.
Published: 2024
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11. A future interstellar probe on the dynamic heliosphere and its interaction with the very local interstellar medium: In-situ particle and fields measurements and remotely sensed ENAs

Author: K. Dialynas, V. J. Sterken, P. C. Brandt, L. Burlaga, D. B. Berdichevsky, R. B. Decker, S. Della Torre, R. DeMajistre, A. Galli, M. Gkioulidou, M. E. Hill, S. M. Krimigis, M. Kornbleuth, W. Kurth, B. Lavraud, R. McNutt, D. G. Mitchell, P. S. Mostafavi, R. Nikoukar, M. Opher, E. Provornikova, E. C. Roelof, P. G. Rancoita, J. D. Richardson, E. Roussos, J. M. Sokół, G. La Vacca, J. Westlake, and T. Y. Chen
Subjects: interstellar probe, heliosphere, heliosheath, Voyager, Cassini, energetic neutral atoms, Astronomy, QB1-991, Geophysics. Cosmic physics, QC801-809
Abstract: The recently published Interstellar Probe (ISP) study report describes a pragmatic mission concept with a launch window that starts in 2036 and is expected to reach several hundreds of astronomical units past the heliopause within a time frame of ≥50 years (https://interstellarprobe.jhuapl.edu/Interstellar-Probe-MCR.pdf). Following the ISP report, this paper, that will also be accessible from the Bulletin of the AAS (BAAS) in the framework of the Decadal Survey for Solar and Space Physics (Heliophysics) 2024–2033 (Dialynas et al., A future Interstellar Probe on the dynamic heliosphere and its interaction with the very local interstellar medium: In-situ particle and fields measurements and remotely sensed ENAs, 2022a), aims to highlight the importance of studying the physics of the interactions pertaining to the expanding solar wind that meets the plasma, gas and dust flows of the very local interstellar medium, forming the complex and vast region of our astrosphere. We focus on three fundamental open science questions that reveal the dynamical nature of the heliosphere A) Where are the heliosphere boundaries and how thick is the heliosheath B) Is there a “missing” pressure component towards exploring the dynamics of the global heliosheath and its interaction with the very local interstellar medium C) Why does the shape and size of the global heliosphere appear different in different Energetic Neutral Atom energies? We argue that these questions can only be addressed by exploiting a combination of in-situ charged particle, plasma waves and fields measurements with remotely sensed Energetic Neutral Atoms that can be measured simultaneously from the instruments of a future Interstellar Probe mission, along its trajectory from interplanetary space through the heliosheath and out to the very local interstellar medium.
Published: 2023
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12. The influence of background music and narrative setting on anthropomorphic judgements of killer whale (Orcinus orca) emotional states and subsequent donation behavior.

Author: Heather M Manitzas Hill, Elena Svetieva, Sarah Dietrich, Emily Gallegos, Jeffery Humphries, Nicolas Mireles, Mario Salgado, Roberto Lara, and Jennifer Zwahr
Subjects: Medicine, Science
Abstract: Animal documentary films such as Blackfish, considered nonfiction accounts of reality, nonetheless use rhetorical devices to engage viewers and shape their emotional experience for maximum effect. Such devices can also influence attitudes and alter behavior. In animal documentaries, anthropomorphic impressions of the animals by audiences are key. Using general population samples in the US, three online experiments assessed the influence of background music and narrative setting on how viewers emotionally appraised the emotional state of a killer whale (Orcinus orca) and subsequently donated to causes affiliated with killer whales. While happy music led to perceptions of a happy whale, sad music led to perceptions of a sad whale. mediation analyses showed that these perceptions indirectly influence donation behavior, via beliefs about the killer whale's welfare and wellbeing. Analyses also indicated that the highest donation amounts towards killer whales were elicited from footage depicting a killer whale in the wild, with sad background music. These findings highlight the potential power that animal and nature documentaries have over viewers, which, when combined with human tendencies toward anthropomorphism, can have significant influence on conservation attitudes and behavior.
Published: 2023
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13. Bottlenose Dolphin Calf Initiated Pectoral Fin Contact Exchanges with Mother, Other Kin, and Non-Kin

Author: Kathleen M. Dudzinski, Christine A. Ribic, Heather M. Manitzas Hill, and Teresa T. Bolton
Subjects: pectoral fin contact, mother-calf dyads, bottlenose dolphins, tactile contact, behavior, non-kin, Zoology, QL1-991
Abstract: For dolphins, the strongest bond documented is typically that between a mother and her pre-weaned offspring, but outside of the maternal relationship, our knowledge of calf behavior is limited. We examined how 23 bottlenose dolphin (Tursiops truncatus) calves (11 females and 12 males from 9 matrilines) initiated pectoral fin contact (PFC) exchanges with their mothers and kin (n = 362) versus with non-kin (n = 950). Calves initiated PFC exchanges with preferred partners (primarily their mothers) over individuals who were simply available to them. For calves with mothers as their only kin available, there was a difference in how they shared PFC with non-kin adults versus non-kin young. A calf was twice as likely to initiate PFC with an adult (mother or adult non-kin) as with another young dolphin. Male and female calves were different in how they initiated PFC with kin and non-kin, which supports previous research that identified a sex difference in calf behavior. These results support the observation that kin and non-kin dolphins share PFC differently. It is also likely that kin (mothers and calves, siblings, etc.) use other forms of contact to share information and potentially develop their relationships. Understanding all types of tactile contact would facilitate a more detailed understanding of how touch might be used by dolphins when relationships are established and maintained.
Published: 2021
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14. Seasonality of social behaviour among immature belugas (Delphinapterus leucas) in managed care

Author: Jackson R. Ham, Malin K. Lilley, Malin R. Miller, and Heather M. Manitzas Hill
Subjects: juvenile behaviour, sociality, white whales, socio-sexual behaviour, agonistic behaviour, affiliative behaviour, Environmental sciences, GE1-350, Oceanography, GC1-1581
Abstract: Belugas (Delphinapterus leucas) in managed care have been reported to show seasonal variation in socio-sexual behaviour, hormone levels and respiration rates; however, little is known about the social interactions of wild belugas when they are not in summer, near-shore congregations. To better understand if belugas show seasonal variation in social interactions, this study recorded the behaviour of 10 belugas (five females, five males, ranging from birth to 10 years of age) housed in managed care. Social interactions typically peaked in the summer months but persisted at very low levels during the rest of the year. Seasonal variation was most dramatic for socio-sexual behaviour but was generally mirrored in pattern by agonistic and affiliative interactions. Subjects closer to maturity displayed more seasonal variation than younger subjects, and males displayed more seasonal variation compared to females. The peak in social interactions found in this study aligns rather closely with wild belugas’ summer, near-shore congregations, where belugas have increased opportunities for socializing. Although belugas in managed care do not experience a seasonal change in habitat, they do show seasonal changes in social behaviour, which are likely driven by seasonal fluctuations in hormone levels. It is therefore expected that wild beluga populations would show similar behavioural patterns if they were observed throughout the remainder of the year. This research has applications for belugas in managed care and may provide a framework for understanding the social behaviour of wild belugas.
Published: 2021
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15. Synergy between behavioural research on beluga whales (Delphinapterus leucas) conducted in zoological and wild settings

Author: Heather M. Manitzas Hill, Deirdre B. Yeater, and Michael Noonan
Subjects: animal cognition, aquariums, captive whales, socio-sexual interactions, maternal behaviour, play, Environmental sciences, GE1-350, Oceanography, GC1-1581
Abstract: Behavioural observations of captive beluga whales have complemented and extended much of what has been learnt about this species in the wild. Aquarium-based research has provided finer-scale specificity for many topics, including the seasonal breeding pattern that is characteristic of this species, as well as socio-sexual behaviour that appears to be an important part of the behavioural repertoire of this species. One example is a strong propensity for male–male social interactions that begin to develop at an early age. In addition, detailed behavioural milestones in calves have been documented in ways that extend that which have been collected from wild populations. These include swim positions with mother, separations/reunions with mother, and other social interactions, and play. Characteristics of beluga maternal care have also been studied more often in captive settings than in the wild, particularly with respect to details pertaining to nursing behaviour, individual differences in maternal style and allomaternal care. Other topics that have received scientific scrutiny in zoological settings include individual differences and behavioural laterality. Thus, a greater understanding of beluga behavioural biology has the potential to emerge as a consequence of synergy between research conducted in the two settings.
Published: 2021
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16. Evidence for Maternal Style Among Adult Female Dolphins When Sharing Pectoral Fin Contacts with Their Calves

Author: Kathleen M. Dudzinski, Christine A. Ribic, Heather M. Manitzas Hill, and Teresa T. Bolton
Subjects: behavior, bottlenose dolphins, mother-calf dyads, pectoral fin contact, tactile contact, Zoology, QL1-991
Abstract: Adult bottlenose dolphins share pectoral fin contacts (PFC) to manage their social relationships but less is known about how mothers share PFC with their calves. Using a dataset collected over 16 years, we analyzed how 10 matrilines, including three second generation female dolphins in a maternal role, used PFC with their pre-weaned calves. Mothers had different rates of initiation with their calves forming a continuum from those initiating few contacts (15%) to those initiating more (44%). For mothers with all-aged calves, the lateral side was contacted the most to start interactions with mothers contacting body parts at a similar rate. All mothers assumed the same posture regardless of their role as initiator or receiver, with horizontal the most prevalent posture. Two maternal styles were found for PFC: high and low use of PFC. Within the high PFC group, there was individual variation that was related to calf sex. Even though evidence of maternal style was confirmed in PFC exchanges between adult female dolphins and their calves, the number of PFC shared between these kin was only ~9% of all documented PFC contacts (N = 4,345) over 16 years, suggesting that other forms of tactile contact may be more important within the confines of the mother-offspring relationship in delphinids.
Published: 2021
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17. Early results and validation of SAGE III-ISS ozone profile measurements from onboard the International Space Station

Author: M. P. McCormick, L. Lei, M. T. Hill, J. Anderson, R. Querel, and W. Steinbrecht
Subjects: Environmental engineering, TA170-171, Earthwork. Foundations, TA715-787
Abstract: The Stratospheric Aerosol and Gas Experiment III (SAGE III, 2018) instrument was launched on 19 February 2017 from the NASA Kennedy Space Center and was integrated aboard the International Space Station (ISS). SAGE III-ISS has been providing ozone profile measurements since June 2017. This paper presents an early validation of the Level 2 solar and lunar occultation ozone data products using ground-based lidar and ozonesondes from Hohenpeißenberg and Lauder as well as satellite ozone vertical products from the Atmospheric Chemistry Experiment Fourier Transform Spectrometer (ACE-FTS) instrument. Average differences in the ozone concentration between SAGE III-ISS and Hohenpeißenberg lidar observations for 1 year are less than 10 % between 16 and 42 km and less than 5 % between 20 and 40 km. Hohenpeißenberg ozonesonde comparisons are mostly within 10 % between 18 and 30 km. The Lauder lidar comparison results are less than 10 % between 17 and 37 km, and the Lauder ozonesonde comparison results are less than 10 % between 19 and 31 km. The seasonal average differences in the ozone concentration between SAGE III-ISS and ACE-FTS are mostly less than 5 % between 20 and 45 km for both the Northern Hemisphere and Southern Hemisphere. All results from these comparisons show that the SAGE III-ISS ozone solar data compare well with correlative measurements throughout the stratosphere. With few comparisons available, the percentage difference between the SAGE III-ISS lunar ozone data and the ozonesonde data is less than 10 % between 19 and 27 km. The percentage difference between the SAGE III-ISS lunar ozone data and the ACE-FTS ozone data is less than 10 % between 20 and 40 km.
Published: 2020
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18. Analyses of ∼0.05–2 MeV Ions Associated with the 2022 February 16 Energetic Storm Particle Event Observed by Parker Solar Probe

Author: Joe Giacalone, C. M. S. Cohen, D. J. McComas, X. Chen, M. A. Dayeh, W. H. Matthaeus, K. G. Klein, S. D. Bale, E. R. Christian, M. I. Desai, M. E. Hill, L. Y. Khoo, D. Lario, R. A. Leske, R. L. McNutt Jr., D. G. Mitchell, J. G. Mitchell, O. Malandraki, and N. A. Schwadron
Subjects: Solar energetic particles, Solar coronal mass ejections, Interplanetary shocks, Interplanetary particle acceleration, Astrophysics, QB460-466
Abstract: We present analyses of 0.05–2 MeV ions from the 2022 February 16 energetic storm particle event observed by Parker Solar Probe's (PSP) IS⊙IS/EPI-Lo instrument at 0.35 au from the Sun. This event was characterized by an enhancement in ion fluxes from a quiet background, increasing gradually with time with a nearly flat spectrum, rising sharply near the arrival of the coronal mass ejection (CME)–driven shock, becoming nearly a power-law spectrum, then decaying exponentially afterward, with a rate that was independent of energy. From the observed fluxes, we determine diffusion coefficients, finding that far upstream of the shock the diffusion coefficients are nearly independent of energy, with a value of 10 ^20 cm ^2 s ^−1 . Near the shock, the diffusion coefficients are more than 1 order of magnitude smaller and increase nearly linearly with energy. We also determine the source of energetic particles, by comparing ratios of the intensities at the shock to estimates of the quiet-time intensity to predictions from diffusive shock acceleration theory. We conclude that the source of energetic ions is mostly the solar wind for this event. We also present potential interpretations of the near-exponential decay of the intensity behind the shock. One possibility we suggest is that the shock was overexpanding when it crossed PSP and the energetic particle intensity decreased behind the shock to fill the expanding volume. Overexpanding CMEs could well be more common closer to the Sun, and this is an example of such a case.
Published: 2023
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19. Parker Solar Probe Encounters the Leg of a Coronal Mass Ejection at 14 Solar Radii

Author: D. J. McComas, T. Sharma, E. R. Christian, C. M. S. Cohen, M. I. Desai, M. E. Hill, L. Y. Khoo, W. H. Matthaeus, D. G. Mitchell, F. Pecora, J. S. Rankin, N. A. Schwadron, J. R. Szalay, M. M. Shen, C. R. Braga, P. S. Mostafavi, and S. D. Bale
Subjects: Solar coronal mass ejections, Interplanetary magnetic fields, Interplanetary medium, Interplanetary particle acceleration, Solar energetic particles, Solar wind, Astrophysics, QB460-466
Abstract: We use Parker Solar Probe (PSP) observations to report the first direct measurements of the particle and field environments while crossing the leg of a coronal mass ejection (CME) very close to the Sun (∼14 Rs). An analysis that combines imaging from 1 au and PSP with a CME model, predicts an encounter time and duration that correspond to an unusual, complete dropout in low-energy solar energetic ions from H–Fe, observed by the Integrated Science Investigation of the Sun (IS⊙IS). The surrounding regions are populated with low-intensity protons and heavy ions from 10s to 100 keV, typical of some quiet times close in to the Sun. In contrast, the magnetic field and solar wind plasma show no similarly abrupt changes at the boundaries of the dropout. Together, the IS⊙IS energetic particle observations, combined with remote sensing of the CME and a dearth of other “typical” CME signatures, indicate that this CME leg is significantly different from the magnetic and plasma structure normally assumed for CMEs near the Sun and observed in interplanetary CMEs farther out in the solar wind. The dropout in low-energy energetic ions may be due to the cooling of suprathermal ions at the base of the CME leg flux tube, owing to the rapid outward expansion during the release of the CME.
Published: 2023
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20. A Living Catalog of Parker Solar Probe IS⊙IS Energetic Particle Enhancements

Author: J. G. Mitchell, C. M. S. Cohen, T. J. Eddy, C. J. Joyce, J. S. Rankin, M. M. Shen, G. A. de Nolfo, E. R. Christian, D. J. McComas, R. L. McNutt Jr., M. E. Wiedenbeck, N. A. Schwadron, M. E. Hill, A. W. Labrador, R. A. Leske, R. A. Mewaldt, D. G. Mitchell, and J. R. Szalay
Subjects: Solar flares, Solar energetic particles, Interplanetary physics, Solar particle emission, Solar coronal mass ejection shocks, Astrophysics, QB460-466
Abstract: Energetic charged particles are pervasive throughout the heliosphere with contributions from solar energetic particle events, stream and corotating interaction regions, galactic cosmic rays, anomalous cosmic rays, and suprathermal ions. The Integrated Science Investigation of the Sun (IS⊙IS) on board the Parker Solar Probe is a suite of energetic particle detectors covering the energy range ∼20 keV–200 MeV nuc ^−1 . IS⊙IS measures energetic particles closer to the Sun than any instrument suite in history, providing a singular view of the energetic particle population in a previously unexplored region. To enable the global research community to efficiently use IS⊙IS data, we have developed an online living catalog of energetic particle enhancements observed by the IS⊙IS instruments. Event identification methodology, information on accessing the catalog, highlights of several events, and a summary of the overall trends are presented. Also included is a summary Event Catalog showing many of the key event parameters for IS⊙IS events to the time of writing.
Published: 2023
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21. Recent enhancements in the performance of the Orion high-resolution x-ray spectrometers

Author: N. Hell, P. Beiersdorfer, G. V. Brown, T. E. Lockard, E. W. Magee, R. Shepherd, D. J. Hoarty, C. R. D. Brown, M. P. Hill, L. M. R. Hobbs, S. F. James, C. Lynch, and T. A. Caughey
Published: 2021
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22. Extracellular vesicles as circulating cancer biomarkers: opportunities and challenges

Author: R. E. Lane, D. Korbie, M. M. Hill, and M. Trau
Subjects: Exosome, Microvesicle, Extracellular vesicle, Cancer, Biomarker, Medicine (General), R5-920
Abstract: Abstract Extracellular vesicles (EVs) are small, lipid-bound particles containing nucleic acid and protein cargo which are excreted from cells under a variety of normal and pathological conditions. EVs have garnered substantial research interest in recent years, due to their potential utility as circulating biomarkers for a variety of diseases, including numerous types of cancer. The following review will discuss the current understanding of the form and function of EVs, their specific role in cancer pathogenesis and their potential for non-invasive disease diagnosis and/or monitoring. This review will also highlight several key issues for this field, including the importance of implementing robust and reproducible sample handling protocols, and the challenge of extracting an EV-specific biomarker signal from a complex biological background.
Published: 2018
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23. Effects of elevated <scp> CO 2 </scp> on feeding responses of biological control agents of Pontederia crassipes

Author: M. K. Paper, T. Righetti, S. L. Raubenheimer, J. A. Coetzee, A. J. Sosa, and M. P. Hill
Subjects: Insect Science, Ecology, Evolution, Behavior and Systematics
Published: 2023

24. Nagoya Protocol and Africa’s willingness to share biological control agents, are we deterred by barriers instead of using opportunities to work together?

Author: P. J. Ivey, M. P. Hill, S. N. Kenfack Voukeng, and K. N. Weaver
Subjects: Insect Science, Agronomy and Crop Science
Abstract: Amongst members of the biological control community there is a range of perceptions regarding the Nagoya Protocol, at best it will hinder access to natural enemies of pests and invasive plants and at worst implementation of the Protocol will prevent access to these resources. In this preliminary study of Africa’s preparedness to implement the Nagoya Protocol and control access to potential biological control agents, we found that several countries have not yet established procedures and policies in this regard. Several factors including lack of awareness, insufficient relevant information and lack of capacity may cause delay in countries implementing access and benefit sharing legislation and processes. The lack of preparedness provides an opportunity for the research community to work with government officials to facilitate future access to natural enemies to act as biological control agents on invasive plants and agricultural pests. Collaboration between researchers, managers and bureaucrats in support of African countries could lead to collective action that develops policies and implements processes to foster exploration of African biodiversity. This collaboration could also foster the sharing of biological control agents that will benefit Africa through integrated pest management in agriculture, protection of human lives and livelihoods, and reduction of the impact of invasive alien species on biodiversity and environmental infrastructure.
Published: 2023

25. Development of a bright MeV photon source with compound parabolic concentrator targets on the National Ignition Facility Advanced Radiographic Capability (NIF-ARC) laser

Author: S. M. Kerr, D. Rusby, G. J. Williams, K. Meaney, D. J. Schlossberg, A. Aghedo, D. Alessi, J. Ayers, S. Azhar, M. B. Aufderheide, M. W. Bowers, J. D. Bude, H. Chen, G. Cochran, J. Crane, J. M. Di Nicola, D. N. Fittinghoff, P. Fitzsimmons, H. Geppert-Kleinrath, B. Golick, G. P. Grim, A. Haid, M. Hamamoto, R. Heredia, M. Hermann, S. Herriot, M. P. Hill, W. Hoke, D. Kalantar, A. Kemp, Y. Kim, K. LaFortune, N. Lemos, A. Link, R. Lowe-Webb, A. MacPhee, M. Manuel, D. Martinez, M. Mauldin, S. Patankar, L. Pelz, M. A. Prantil, M. Quinn, C. W. Siders, S. Vonhof, P. Wegner, S. Wilks, W. Williams, K. Youngblood, and A. J. Mackinnon
Subjects: Condensed Matter Physics
Abstract: Compound parabolic concentrator (CPC) targets are utilized at the National Ignition Facility Advanced Radiographic Capability (NIF-ARC) laser to enhance the acceleration of electrons and production of high energy photons, for laser durations of 10 ps and energies up to 2.4 kJ. A large enhancement of mean electron energy (>2 ×) and photon brightness (>10×) is found with CPC targets compared to flat targets. Using multiple diagnostic techniques at different spatial locations and scaling by gold activation spatial data, photon spectra are characterized for [Formula: see text] MeV. Beam width and pointing variations are given. The efficient production of MeV photons at [Formula: see text] W/cm2 with CPCs is observed, with doses of >10 rad in air at 1 m for [Formula: see text] MeV; these exceed those previously reported with laser-driven sources. Using this source, sub-mm resolution radiographs are generated through large areal density radiograph objects. These results are promising for the development of bright MeV x-ray and particle sources on Petawatt class laser systems.
Published: 2023

26. Characterization of a 1D-imaging high-energy x-ray backlighter driven by the National Ignition Facility Advanced Radiographic Capability laser

Author: M. P. Hill, G. J. Williams, D. H. Kalantar, B. Bachmann, D. A. Martinez, C. V. Stan, A. Murphy, M. J. Arend, G. A. Mercado, H. C. Wong, Z. Dunn, C. D. Santos, T. E. Lockard, E. T. Gumbrell, R. E. Rudd, J. M. McNaney, K. K. Le Galloudec, B. A. Remington, and H.-S. Park
Subjects: Instrumentation
Abstract: Plastic deformation of samples compressed to Mbar pressures at high strain rates at the National Ignition Facility (NIF) forms the basis of ongoing material strength experiments in conditions relevant to meteor impacts, geophysics, armor development, and inertial confinement fusion. Hard x-ray radiography is the primary means of measuring the evolution of these samples, typically employing a slit-collimated high-Z microdot driven by the NIF laser to generate [Formula: see text] keV x rays [E. Gumbrell et al., Rev. Sci. Instrum. 89, 10G118 (2018) and C. M. Huntington et al., Rev. Sci. Instrum. 89, 10G121 (2018)]. Alternatively, a dysprosium “micro-flag” target driven by the Advanced Radiographic Capability laser ([Formula: see text] kJ, 10 ps) can deliver significantly higher spatiotemporal resolution [M. P. Hill et al., Rev. Sci. Instrum. 92, 033535 (2021)], especially in high-opacity samples. Initial experiments revealed problematic brightness and spectral gradients from this source, but by radiographing a set of diamond-turned, 105 µm-thick Pb test objects and supported by simulations using the 3D Monte Carlo code GEANT4, these geometry-dependent gradients across the field of view are quantified and mitigation strategies are assessed. In addition to significantly enhancing the modulation transfer function compared to the existing system, image stacking from multiple layers of image plate is shown to almost double the signal to noise ratio that will reduce uncertainties in future dynamic strength experiments.
Published: 2022

27. Preparations for a European RD roadmap for an inertial fusion demo reactor

Author: P. Allan, R. J. Leeper, Peter Norreys, Paul A. Bradley, S. A. Yi, J. Luis, Ramy Aboushelbaya, James Sadler, Robert R. Peterson, Kirk Flippo, Kevin Glize, M. G. Ramsay, Robert Bingham, Luke Ceurvorst, B. Spiers, Raoul Trines, N. Sircombe, Naren Ratan, Brian Haines, R. H. W. Wang, J. Fyrth, L. Hobbs, M. W. Mayr, C. R. D. Brown, E. Floyd, R. E. Olson, Steven James, John Kline, Jonathan Skidmore, Alex Zylstra, M. P. Hill, R. W. Paddock, and A. F. Savin
Subjects: High-gain antenna, Inertial frame of reference, General Mathematics, General Physics and Astronomy, Auxiliary heating, fast ignition, 7. Clean energy, 01 natural sciences, 010305 fluids & plasmas, law.invention, IFE Roadmap, law, 0103 physical sciences, auxiliary heating, 010306 general physics, Inertial confinement fusion, QC, Fusion, General Engineering, inertial confinement fusion, Articles, Fusion power, Ignition system, Systems engineering, high-energy density plasma physics, inertial fusion energy, Research Article
Abstract: A European consortium of 15 laboratories across nine nations have worked together under the EUROFusion Enabling Research grants for the past decade with three principle objectives. These are: (a) investigating obstacles to ignition on megaJoule-class laser facilities; (b) investigating novel alternative approaches to ignition, including basic studies for fast ignition (both electron and ion-driven), auxiliary heating, shock ignition, etc.; and (c) developing technologies that will be required in the future for a fusion reactor. A brief overview of these activities, presented here, along with new calculations relates the concept of auxiliary heating of inertial fusion targets, and provides possible future directions of research and development for the updated European Roadmap that is due at the end of 2020. This article is part of a discussion meeting issue ‘Prospects for high gain inertial fusion energy (part 2)’.
Published: 2020

28. Whole-beam self-focusing in fusion-relevant plasma

Author: Ben Spiers, L. Hobbs, M. P. Hill, N. Sircombe, J. Luis, M. G. Ramsay, A. F. Savin, R. W. Paddock, Luke Ceurvorst, Peter Norreys, P. Allan, Steven James, M. W. Mayr, Ramy Aboushelbaya, R. H. W. Wang, C. R. D. Brown, E. Floyd, J. Fyrth, Naren Ratan, and Jonathan Skidmore
Subjects: laser–plasma interactions, proton radiography, General Mathematics, General Physics and Astronomy, fast ignition, 7. Clean energy, 01 natural sciences, 010305 fluids & plasmas, law.invention, Optics, law, 0103 physical sciences, 010306 general physics, plasma channelling, Inertial confinement fusion, Physics, business.industry, General Engineering, inertial confinement fusion, Self-focusing, Plasma, Articles, Fusion power, Laser, Magnetic field, Ignition system, Interferometry, synthetic diagnostics, business, Research Article
Abstract: Fast ignition inertial confinement fusion requires the production of a low-density channel in plasma with density scale-lengths of several hundred microns. The channel assists in the propagation of an ultra-intense laser pulse used to generate fast electrons which form a hot spot on the side of pre-compressed fusion fuel. We present a systematic characterization of an expanding laser-produced plasma using optical interferometry, benchmarked against three-dimensional hydrodynamic simulations. Magnetic fields associated with channel formation are probed using proton radiography, and compared to magnetic field structures generated in full-scale particle-in-cell simulations. We present observations of long-lived, straight channels produced by the Habara–Kodama–Tanaka whole-beam self-focusing mechanism, overcoming a critical barrier on the path to realizing fast ignition. This article is part of a discussion meeting issue ‘Prospects for high gain inertial fusion energy (part 2)’.
Published: 2020

29. ATM and GLUT1-S490 phosphorylation regulate GLUT1 mediated transport in skeletal muscle.

Author: Stanley Andrisse, Gaytri D Patel, Joseph E Chen, Andrea M Webber, Larry D Spears, Rikki M Koehler, Rona M Robinson-Hill, James K Ching, Imju Jeong, and Jonathan S Fisher
Subjects: Medicine, Science
Abstract: The glucose and dehydroascorbic acid (DHA) transporter GLUT1 contains a phosphorylation site, S490, for ataxia telangiectasia mutated (ATM). The objective of this study was to determine whether ATM and GLUT1-S490 regulate GLUT1.L6 myoblasts and mouse skeletal muscles were used to study the effects of ATM inhibition, ATM activation, and S490 mutation on GLUT1 localization, trafficking, and transport activity.In myoblasts, inhibition of ATM significantly diminished cell surface GLUT1, glucose and DHA transport, GLUT1 externalization, and association of GLUT1 with Gα-interacting protein-interacting protein, C-terminus (GIPC1), which has been implicated in recycling of endosomal proteins. In contrast, ATM activation by doxorubicin (DXR) increased DHA transport, cell surface GLUT1, and the GLUT1/GIPC1 association. S490A mutation decreased glucose and DHA transport, cell surface GLUT1, and interaction of GLUT1 with GIPC1, while S490D mutation increased transport, cell surface GLUT1, and the GLUT1/GIPC1 interaction. ATM dysfunction or ATM inhibition reduced DHA transport in extensor digitorum longus (EDL) muscles and decreased glucose transport in EDL and soleus. In contrast, DXR increased DHA transport in EDL.These results provide evidence that ATM and GLUT1-S490 promote cell surface GLUT1 and GLUT1-mediated transport in skeletal muscle associated with upregulation of the GLUT1/GIPC1 interaction.
Published: 2013
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30. Observations of pressure anisotropy effects within semi-collisional magnetized plasma bubbles

Author: Satyabrata Kar, Louise Willingale, E. T. Gumbrell, A. F. A. Bott, G. Cooper, P. Durey, C. N. Danson, A. G. R. Thomas, Nigel Woolsey, Gianluca Gregori, P. Treadwell, John Foster, Robert Kingham, Archis Joglekar, Mark Read, J. Skidmore, Sarah Wilson, Christopher Spindloe, Eleanor Tubman, Thomas Hodge, Christopher Ridgers, Marco Borghesi, B. Coleman, P. Graham, and M. P. Hill
Subjects: Proton, High energy density physics, Science, General Physics and Astronomy, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, 010305 fluids & plasmas, Physics::Fluid Dynamics, symbols.namesake, Physics::Plasma Physics, physics.plasm-ph, 0103 physical sciences, Nernst equation, 010306 general physics, Anisotropy, Physics, Resistive touchscreen, Multidisciplinary, General Chemistry, Plasma, Magnetic field, Computational physics, Physics::Space Physics, symbols, Interaction layer
Abstract: Magnetized plasma interactions are ubiquitous in astrophysical and laboratory plasmas. Various physical effects have been shown to be important within colliding plasma flows influenced by opposing magnetic fields, however, experimental verification of the mechanisms within the interaction region has remained elusive. Here we discuss a laser-plasma experiment whereby experimental results verify that Biermann battery generated magnetic fields are advected by Nernst flows and anisotropic pressure effects dominate these flows in a reconnection region. These fields are mapped using time-resolved proton probing in multiple directions. Various experimental, modelling and analytical techniques demonstrate the importance of anisotropic pressure in semi-collisional, high-β plasmas, causing a reduction in the magnitude of the reconnecting fields when compared to resistive processes. Anisotropic pressure dynamics are crucial in collisionless plasmas, but are often neglected in collisional plasmas. We show pressure anisotropy to be essential in maintaining the interaction layer, redistributing magnetic fields even for semi-collisional, high energy density physics (HEDP) regimes.
Published: 2020

31. Time evolution of transient plasma states from nanowire arrays irradiated at relativistic intensities

Author: M. G. Ramsay, Steven James, P. Allan, C. R. D. Brown, L. M. R. Hobbs, Oliver Humphries, Sam Vinko, B. L. Williams, M. P. Hill, and David Hoarty
Subjects: Physics, Nanowire, Time evolution, General Physics and Astronomy, lcsh:Astrophysics, Plasma, Laser, 01 natural sciences, lcsh:QC1-999, 010305 fluids & plasmas, Computational physics, law.invention, law, lcsh:QB460-466, 0103 physical sciences, State of matter, Emission spectrum, 010306 general physics, Absorption (electromagnetic radiation), Spectroscopy, lcsh:Physics
Abstract: Understanding the evolution of extreme states of matter driven by relativistic laser-plasma interactions is a fundamental problem in high-field physics. This is especially true for nanostructured targets, where hydrodynamic effects play a key role within the ultra-fast time scale of laser absorption. Nanowire array targets are of particular interest as they provide an efficient means to access the ultra-high-energy-density regime due to their increased optical absorption, and have been shown to act as very efficient x-ray emission sources. Here we present analysis of time-resolved x-ray emission spectroscopy from petawatt-irradiated Nickel nanowire arrays, used to characterise the conditions achieved when scaling the performance of nanowire targets to relativistic intensities. A full time evolution of the plasma conditions is extracted from the experimental data, and shows good agreement with the physical interaction picture developed by prior computational studies. Nanowire arrays offer an efficient route to high-energy-density plasma creation, but the hydrodynamical heating process remains uncharacterised. Here, time-resolved x-ray spectroscopy sheds light on the evolution of the system under relativistic petawatt laser irradiation.
Published: 2020

32. X-ray-line coincidence photopumping in a potassium-chlorine mixed plasma

Author: L. M. R. Hobbs, R. Charles, M. P. Hill, S. J. Rose, J. Nilsen, W. Babbage, G. Cooper, Peter Beiersdorfer, L. A. Wilson, David Hoarty, Steven James, P. W. Hatfield, C. R. D. Brown, D. Burridge, Howard A. Scott, and AWE Plc
Subjects: Physics, education.field_of_study, Population, X-ray, Plasma, Laser, Ion, law.invention, Resonance fluorescence, Coincident, law, Atomic physics, education, Line (formation)
Abstract: Exploiting the multiple long pulse capability and suite of x-ray diagnostics of the Orion laser, we have set out to explore line coincidence photopuming---the enhancement in population of an atomic level brought on by resonant absorption of x rays from a different emitting ion. Unlike previous work, the two ions are in the same plasma and so the experiment is an x-ray analog of the well-known Bowen resonance fluorescence mechanism that operates in astrophysical situations in the optical region. Our measurements have shown enhanced fluorescence in a chlorine plasma, attributable to line coincident photopumping from co-mixed potassium ions. To detect this relatively low signal-to-noise phenomenon, the data from multiple shots are combined, and the statistical method of bootstrapping is used to assign a confidence value to the measured enhancement, resulting in an estimate of the enhancement of $39{\ifmmode\pm\else\textpm\fi{}}_{18}^{16}%$ compared to the null case, where no pumping occurs. The experimental results have been compared to coupled radiation-transport and radiation hydrodynamics simulations using the cretin code together with the nym radiation hydrodynamics model and agreement has been found, with the simulations also predicting modest enhancement.
Published: 2020

33. Measurement and simulation of the temperature evolution of a short pulse laser heated buried layer target

Author: Howard A. Scott, E. Marley, D.J. Hoarty, Mark Foord, Peter Beiersdorfer, Steven James, P. Allan, Gregory V. Brown, Ronnie Shepherd, James Dunn, A. B. Steel, Richard A. London, C. R. D. Brown, H. Chen, L. Hobbs, and M. P. Hill
Subjects: Nuclear and High Energy Physics, Radiation, Materials science, Thermodynamic equilibrium, Streak camera, Plasma, Electron, Laser, 01 natural sciences, Spectral line, law.invention, 010309 optics, law, 0103 physical sciences, Emission spectrum, Atomic physics, 010306 general physics
Abstract: Short pulse laser heated buried layers experiments have been performed on the Orion laser facility to study the time-resolved emission characteristics of plasmas with mass densities ≥ 1 g/cc and electron temperatures > 500 eV. Our streak camera measurements focused on the K-shell emission lines of He-like and H-like aluminum from a buried aluminum layer. The data were analyzed by comparison to synthetic spectra generated with the non-local thermodynamic equilibrium (NLTE) radiation transfer code Cretin, which yielded maximum temperatures of nearly 800 eV at near solid density. The time precise history of the temperature evolution was reproduced with a 1-D radiation hydrodynamic code; however, the known effect of lateral transport of energy out of the focal spot made exacting agree with theory difficult. Thus, we have observed densities of ≥ 1 g/cc and temperatures of > 500 eV using the 1-D analysis, which supports the idea that the aluminum plasma is locally hotter than inferred from our spatially integrating measurements and that modeling requires the inclusion of 2-dimensional effects.
Published: 2017

34. Extreme Hardening of Pb at High Pressure and Strain Rate

Author: Andrew Krygier, S. D. Rothman, Andrew Comley, D. C. Swift, Shon Prisbrey, Philip D. Powell, P. Graham, James McNaney, Channing Huntington, Robert E. Rudd, Christopher Wehrenberg, Bruce Remington, M. P. Hill, H.-S. Park, E. T. Gumbrell, and Athanasios Arsenlis
Subjects: Materials science, Peak pressure, Alloy, General Physics and Astronomy, engineering.material, Strain rate, Flow stress, 01 natural sciences, High pressure, Error bar, 0103 physical sciences, engineering, Hardening (metallurgy), Composite material, 010306 general physics
Abstract: We study the high-pressure strength of Pb and Pb-4wt%Sb at the National Ignition Facility. We measure Rayleigh-Taylor growth of preformed ripples ramp compressed to ∼400 GPa peak pressure, among the highest-pressure strength measurements ever reported on any platform. We find agreement with 2D simulations using the Improved Steinberg-Guinan strength model for body-centered-cubic Pb; the Pb-4wt%Sb alloy behaves similarly within the error bars. The combination of high-rate, pressure-induced hardening and polymorphism yield an average inferred flow stress of ∼3.8 GPa at high pressure, a ∼250-fold increase, changing Pb from soft to extremely strong.
Published: 2019

35. Observation of He-like satellite lines of the H-like potassium K XIX emission

Author: Gregory V. Brown, M. P. Hill, Tom Lockard, J. Nilsen, Vlad Soukhanovskii, D. Burridge, Ronnie Shepherd, L. M. R. Hobbs, Michael E. Weller, L. A. Wilson, John J. L. Morton, P. W. Hatfield, S. J. Rose, A. McKelvey, Peter Beiersdorfer, David Hoarty, and AWE Plc
Subjects: 010504 meteorology & atmospheric sciences, Dark matter, TRANSITIONS, Astrophysics, Astronomy & Astrophysics, 01 natural sciences, dark matter, Spectral line, methods: laboratory: atomic, law.invention, law, 0201 Astronomical and Space Sciences, 0103 physical sciences, atomic data, SPECTRA, 010303 astronomy & astrophysics, 0105 earth and related environmental sciences, 0306 Physical Chemistry (incl. Structural), Physics, Science & Technology, Spectrometer, Astronomy and Astrophysics, Plasma, plasmas, Laser, Wavelength, Space and Planetary Science, X-rays: galaxies: clusters, Physical Sciences, 0202 Atomic, Molecular, Nuclear, Particle and Plasma Physics, Electron temperature, Satellite, techniques: spectroscopic
Abstract: We present measurements of the H-like potassium (K xix) X-ray spectrum and its He-like (K xviii) satellite lines, which are situated in the wavelength region between 3.34 and 3.39 Å, which has been of interest for the detection of dark matter. The measurements were taken with a high-resolution X-ray spectrometer from targets irradiated by a long-pulse (2 ns) beam from the Orion laser facility. We obtain experimental wavelength values of dielectronic recombination satellite lines and show that the ratio of the Lyα lines and their dielectronic satellite lines can be used to estimate the electron temperature, which in our case was about 1.5 ± 0.3 keV.
Published: 2019

36. Enhanced fluorescence from x-ray line coincidence pumping of K-pumped Cl and Mg-pumped Ge plasmas

Author: Howard A. Scott, C. R. D. Brown, D. Burridge, L. M. R. Hobbs, Natalie Hell, Gregory V. Brown, Richard A. London, David Hoarty, S. J. Rose, P. Beiersdorfer, P. W. Hatfield, Joseph Nilsen, D. Panchenko, L. A. Wilson, M. F. Gu, Alison Saunders, M. P. Hill, R. Charles, and AWE Plc
Subjects: Materials science, X-ray, Plasma, Atomic physics, Fluorescence, Coincidence, Line (formation)
Abstract: Many resonant photo-pumped X-ray laser schemes that use a strong pump line such as Ly-α or He-α to populate the upper laser state of a separate lasing material have been proposed over the last four decades but none have been demonstrated. As a first step to creating a photo-pumped X-ray laser we decided to reinvestigate some of these schemes at the Orion laser facility with the goal to demonstrate enhanced fluorescence as a first step toward creating a laser. In particular we look at using the Ly-α or He-α K lines to pump the 1s – 3p and 4p transitions in H-like Cl and see fluorescence on the 4f -3d line at 65 Å and the 3d – 2p line at 23 Å. Preliminary experiments are presented that show a modest enhancement of 40% on the 3d-2p line. As an alternative we also look at enhancing the 2p – 2s line in Ne-like Ge at 65Å using the Ly-α Mg line to photo-pump the 2s – 3p line of Ne-like Ge. Calculations are presented that suggest modest enhancements of 2.5 and recent experiments will be presented that show emission from a Ge plasma pumped by the Ly-α Mg line.
Published: 2019

37. High-resolution measurements of Cl15+ line shifts in hot, solid-density plasmas

Author: Peter Beiersdorfer, Ronnie Shepherd, A. McKelvey, John J. L. Morton, Steven James, M. P. Hill, C. R. D. Brown, Gregory V. Brown, L. M. R. Hobbs, L. A. Wilson, and David Hoarty
Subjects: Physics, Solid density, 0103 physical sciences, High resolution, Plasma, Atomic physics, 010306 general physics, 01 natural sciences, Laser beams, 010305 fluids & plasmas, Line (formation)
Abstract: The shifts of the $1s3p{\phantom{\rule{0.16em}{0ex}}}^{1}{P}_{1}\ensuremath{\rightarrow}1{s}^{2}{\phantom{\rule{0.16em}{0ex}}}^{1}{S}_{0}$ He-$\ensuremath{\beta}$ transition of ${\mathrm{Cl}}^{15+}$ were measured in hot ($\ensuremath{\ge}600$ eV), dense (1--2 g/${\mathrm{cm}}^{3}$) plasmas generated by a (66--151)-J short-pulse laser beam at the Orion laser facility. The subpicosecond laser beam irradiated optically thin, KCl microdot targets buried in layers of plastic. The measured red shifts ranged from $4.8\ifmmode\pm\else\textpm\fi{}1.1$ eV for unshocked to $5.9\ifmmode\pm\else\textpm\fi{}1.2$ eV for shocked targets. These values are significantly smaller than recent predictions from a self-consistent-field ion-sphere model.
Published: 2019

38. Recent enhancements in the performance of the Orion high-resolution x-ray spectrometers

Author: E. W. Magee, Tom Lockard, Gregory V. Brown, Steven James, C. R. D. Brown, M. P. Hill, L. M. R. Hobbs, David Hoarty, T. A. Caughey, C. Lynch, Ronnie Shepherd, Peter Beiersdorfer, and Natalie Hell
Subjects: 010302 applied physics, Materials science, Spectrometer, business.industry, Polarization (waves), Laser, 01 natural sciences, Spectral line, 010305 fluids & plasmas, Ion, law.invention, Crystal, Wavelength, Optics, law, 0103 physical sciences, Cathode ray, business, Instrumentation
Abstract: During the past few years, the Orion high-resolution x-ray spectrometers have been successful tools for measuring x-ray spectra from plasmas generated in the Orion laser facility. Duplicate spectrometers also operate successfully at the Livermore EBIT-I and SuperEBIT electron beam ion traps for measuring x-ray polarization. We have recently implemented very high-quality, optically bonded, spherically bent quartz crystals to remove the structure in the x-ray image that had been observed in earlier measurements. The structure had been caused by focusing defects and limited the accuracy of our measurements. We present before and after images that show a drastic improvement. We, furthermore, have implemented a spherically bent potassium acid phthalate (KAP) crystal on one of our spectrometers. The KAP crystal was prepared in a similar fashion, and we present measurements of the N Ly-β and Ne Lyβ lines taken in first- and second-order reflections at 600 and 1200 eV, respectively. These measurements confirm that KAP crystals can be produced at a quality suitable for extending the spectral coverage to wavelengths longer than those accessible by different quartz crystals, especially those that cover the astrophysically important lines of iron.
Published: 2021

39. High resolution >40 keV x-ray radiography using an edge-on micro-flag backlighter at NIF-ARC

Author: Philip D. Powell, E. T. Gumbrell, Robert E. Rudd, Bruce Remington, Garth J. Williams, Alex Zylstra, Tom Lockard, M. P. Hill, Camelia V. Stan, H.-S. Park, K. K. Le Galloudec, D. C. Swift, and James McNaney
Subjects: Materials science, Physics::Instrumentation and Detectors, business.industry, Plate detector, Nanosecond, Laser, law.invention, Optics, law, Temporal resolution, Optical transfer function, business, National Ignition Facility, Instrumentation, Image resolution, Inertial confinement fusion
Abstract: Radiography of low-contrast features in high-density materials evolving on a nanosecond timescale requires a bright photon source in the tens of keV range with high temporal and spatial resolution. One application for sources in this category is the study of dynamic material strength in samples compressed to Mbar pressures at the National Ignition Facility, high-resolution measurements of plastic deformation under conditions relevant to meteor impacts, geophysics, armor development, and inertial confinement fusion. We present radiographic data and the modulation transfer function (MTF) analysis of a multi-component test object probed at ∼100 keV effective backlighter energy using a 5 μm-thin dysprosium foil driven by the NIF Advanced Radiographic Capability (ARC) short-pulse laser (∼2 kJ, 10 ps). The thin edge of the foil acts as a bright line-projection source of hard x rays, which images the test object at 13.2× magnification into a filtered and shielded image plate detector stack. The system demonstrates a superior contrast of shallow (5 μm amplitude) sinusoidal ripples on gold samples up to 90 μm thick as well as enhanced spatial and temporal resolution using only a small fraction of the laser energy compared to an existing long-pulse-driven backlighter used routinely at the NIF for dynamic strength experiments.
Published: 2021

40. Absolute laser energy absorption measurement of relativistic 0.7 ps laser pulses in nanowire arrays

Author: J. D. Moody, R. Costa, Ronnie Shepherd, Jaebum Park, Vyacheslav N. Shlyaptsev, C. Bargsten, D. Cloyne, R. Tommasini, C. Baumann, Alexander Pukhov, James R. Hunter, Reed Hollinger, Richard A. London, Vural Kaymak, Stephen M. Maricle, Jorge J. Rocca, Maria Gabriela Capeluto, and M. P. Hill
Subjects: Physics, Range (particle radiation), Nanostructure, Nanowire, Physics::Optics, Condensed Matter Physics, Laser, 01 natural sciences, 010305 fluids & plasmas, Pulse (physics), law.invention, law, 0103 physical sciences, Irradiation, Atomic physics, 010306 general physics, Absorption (electromagnetic radiation), FOIL method
Abstract: Laser absorption is one of the most important parameters governing laser–matter interactions. The laser energy absorption on nanowire array targets is measured for the first time in the relativistic regime at intensities of 10 19 W / cm 2 and compared to foil targets. The results show that the laser energy absorption of 0.7 ps frequency doubled (527 nm) pulses on Au nanowire targets varies widely with nanowire parameters, reaching laser energy absorption values up to ∼ 71 % of the incident energy, significantly exceeding those of solid flat targets obtained in similar irradiation conditions. The analysis shows that the increase in absorption strongly correlates with larger effective target surface area over a broad range of nanowire parameters explored. These direct absorption measurements provide valuable data to benchmark simulations of the relativistic laser pulse interactions with nanostructures.
Published: 2021

41. Conceptual design of a nonscaling fixed field alternating gradient accelerator for protons and carbon ions for charged particle therapy

Author: K. J. Peach, M. Aslaninejad, R. J. Barlow, C. D. Beard, N. Bliss, J. H. Cobb, M. J. Easton, T. R. Edgecock, R. Fenning, I. S. K. Gardner, M. A. Hill, H. L. Owen, C. J. Johnstone, B. Jones, T. Jones, D. J. Kelliher, A. Khan, S. Machida, P. A. McIntosh, S. Pattalwar, J. Pasternak, J. Pozimski, C. R. Prior, J. Rochford, C. T. Rogers, R. Seviour, S. L. Sheehy, S. L. Smith, J. Strachan, S. Tygier, B. Vojnovic, P. Wilson, H. Witte, and T. Yokoi
Subjects: Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract: The conceptual design for a nonscaling fixed field alternating gradient accelerator suitable for charged particle therapy (the use of protons and other light ions to treat some forms of cancer) is described.
Published: 2013
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42. Enhanced fluorescence from X-Ray line coincidence pumping

Author: P. W. Hatfield, L. M. R. Hobbs, M. F. Gu, M. P. Hill, D. Panchenko, L. A. Wilson, Peter Beiersdorfer, Alison Saunders, J. Nilsen, R. Charles, David Hoarty, Natalie Hell, D. Burridge, C. R. D. Brown, Howard A. Scott, Gregory V. Brown, and S. J. Rose
Subjects: Physics, Optics, business.industry, law, X-ray, business, Laser, Lasing threshold, Fluorescence, Coincidence, Line (formation), law.invention
Abstract: Many resonant photo-pumped X-ray laser schemes that use a strong pump line such as Ly-α or He-α to populate the upper laser state of a separate lasing material have been proposed over the last four decades but none have been demonstrated. As a first step to creating a photo-pumped X-ray laser we have decided to reinvestigate some of these schemes at the Orion laser facility with the goal to show enhanced fluorescence. In particular we look at using the Ly-α or He-α K lines to pump the 1s–3p and 4p transitions in H-like Cl and see fluorescence on the 4f–3d line at 65 A and the 3d–2p line at 23 A. Preliminary experiments are presented that show a modest enhancement. As an alternative we also look at enhancing the 2p–2s line in Ne-like Ge at 65 A using the Ly-α Mg line to photo-pump the 2s–3p line of Ne-like Ge. Calculations are presented that suggest modest enhancements of 2.5.
Published: 2018

43. High resolution, high signal-to-noise crystal spectrometer for measurements of line shifts in high-density plasmas

Author: Gregory V. Brown, Natalie Hell, L. A. Wilson, L. M. R. Hobbs, E. W. Magee, Ronnie Shepherd, C. R. D. Brown, M. P. Hill, David Hoarty, A. McKelvey, Peter Beiersdorfer, and Steven James
Subjects: Diffraction, Materials science, Spectrometer, Physics::Instrumentation and Detectors, business.industry, Detector, Laser, 01 natural sciences, Noise (electronics), Spectral line, 010305 fluids & plasmas, law.invention, Optics, law, 0103 physical sciences, Electromagnetic shielding, 010306 general physics, business, Instrumentation, Electromagnetic pulse
Abstract: The Orion high-resolution x-ray (OHREX) spectrometer has been a successful tool for measuring the shapes of density-broadened spectral lines produced in short-pulse heated plasmas at the Orion laser facility. We have recently outfitted the instrument with a charge-couple device (CCD) camera, which greatly increased the accuracy with which we can perform line-shift measurements. Because OHREX is located on the outside of the Orion target chamber, no provisions for the shielding of electromagnetic pulses are required. With the CCD, we obtained a higher signal-to-noise ratio than we previously obtained with an image-plate detector. This allowed us to observe structure in the image produced by the diffraction from the two OHREX crystals, which was highly reproducible from shot to shot. This structure will ultimately limit the accuracy of our spectroscopic measurements.
Published: 2018

44. Characterization of near-LTE, high-temperature and high-density aluminum plasmas produced by ultra-high intensity lasers

Author: C. R. D. Brown, Charles Reverdin, Jean-Christophe Pain, Christophe Rousseaux, Laurent Gremillet, Kevin Glize, V. Dervieux, L. Lecherbourg, P. Allan, Christophe P. Blancard, Berenice Loupias, V. Silvert, David Hoarty, P. Renaudin, S. D. Baton, and M. P. Hill
Subjects: Nuclear and High Energy Physics, Radiation, Materials science, High intensity lasers, chemistry.chemical_element, High density, Plasma, Laser, law.invention, Pulse (physics), Characterization (materials science), chemistry, Aluminium, law, Ionization, Atomic physics
Abstract: Ultra-high-intensity lasers have opened up a new avenue for the creation and detailed spectral measurements of dense plasmas in extreme thermodynamic conditions. In this paper, we demonstrate the possibility of heating a dense plasma (ρ > 1 gcm−3) to a maximum temperature of 560 ± 40 eV using a few-Joule, relativistic-intensity laser pulse. Particle-in-cell, radiation-hydrodynamic and atomic physics simulation tools are used together for a full description of the plasma dynamics, from laser interaction to late-time expansion and x-ray emission, yielding overall good agreement with the spectral measurements. We discuss the sensitivity of our analysis to space-time gradients, non-equilibrium ionization processes and hot electron effects.
Published: 2015

45. Arthropod pests of Australian canola during crop emergence: IPM and future directions

Author: S. Macfadyen and M. P. Hill
Subjects: Crop, food.ingredient, food, biology, Agronomy, Agroforestry, Arthropod, biology.organism_classification, Canola
Published: 2017

46. Modelling K shell spectra from short pulse heated buried microdot targets

Author: Richard W. Lee, E. W. Magee, E.G. Hill, N. Sircombe, John J. L. Morton, M. P. Hill, Hyun-Kyung Chung, E. Marley, J. Nilsen, S. J. Rose, Ronnie Shepherd, J.W.O. Harris, M. Jeffery, Steven James, J. Emig, C. R. D. Brown, David Hoarty, Peter Beiersdorfer, and L. M. R. Hobbs
Subjects: Nuclear and High Energy Physics, Materials science, Fluids & Plasmas, PLASMAS, Electron shell, 01 natural sciences, 010305 fluids & plasmas, law.invention, Physics, Fluids & Plasmas, law, 0103 physical sciences, DENSE ALUMINUM, Plasma heating with laser beams, 010306 general physics, Absorption (electromagnetic radiation), Spectroscopy, ULTRASHORT LASER-PULSES, HOT, Science & Technology, 02 Physical Sciences, Radiation, Dense plasma spectroscopy, Physics, Microdot, Pulse duration, Laser, Physical Sciences, Electron temperature, Atomic physics, Beam divergence
Abstract: K shell X-ray emission measurements have been used to diagnose plasma conditions in short-pulse heated buried microdot targets on the Orion high power laser. These experiments have been used to validate simulations of short pulse laser-solid interaction that combine hybrid PIC modelling of the laser absorption with radiation-hydrodynamics simulations including an electron transport model. Comparison of these simulations with streaked K shell spectroscopy show the importance of including radial gradients in fitting the spectra. An example is presented of the emission of sulphur from a 50 µm diameter microdot sample buried in a plastic foil. Previously agreement between simulation and experiment was obtained only by treating the absorbed energy, electron temperature and beam divergence as fitting parameters. The good agreement obtained in this work used the measured laser energy and laser pulse length and calculated the laser-solid target interaction from first principles.
Published: 2017

47. Measurements of plasma spectra from hot dense elements and mixtures at conditions relevant to the solar radiative zone

Author: S. J. Rose, Peter Beiersdorfer, M. P. Hill, E.G. Hill, John J. L. Morton, L. M. R. Hobbs, L.M. Upcraft, Ronnie Shepherd, P. Allan, Steven James, E. Marley, David Hoarty, C. R. D. Brown, N. Sircombe, E. W. Magee, J. Emig, J. Nilsen, J.W.O. Harris, and AWE Plc
Subjects: Chemistry, law, Picosecond, Emission spectrum, Plasma, Nanosecond, Atomic physics, Laser, Radiation zone, Pulse shaping, Spectral line, law.invention
Abstract: X-ray emission spectroscopy has been used to study hot dense plasmas produced using high power laser irradiation of dot samples buried in low Z foils of plastic or diamond. By combining a high contrast short pulse (picosecond timescale) laser beam operating in second harmonic with long pulse (nanosecond timescale) laser beams in third harmonic, and with pulse shaping of the long pulse beams, a range of plasma temperatures from 400eV up to 2.5keV and electron densities from 5e22 up to 1e24/cc have been accessed. Examples are given of measurements of dense plasma effects such as ionization potential depression and line-broadening from the K-shell emission spectra of a range of low Z elements and mixtures and compared to model prediction. Detailed spectra from measurements of the L-shell emission from mid-Z elements are also presented for an example spectrum of germanium. These data are at conditions found in stellar interiors and in particular in the radiative zone of the sun. The plasma conditions are inferred from comparison of the measured spectra to detailed modeling using atomic kinetics and spectral synthesis codes.
Published: 2017

48. Disruption of biological control due to non-target effects of pesticides in Australian grains

Author: S. Macfadyen, M. P. Hill, P. Umina, and M. Nash
Subjects: Non target, business.industry, Biological pest control, Biology, Pesticide, business, Biotechnology
Published: 2017

49. The first data from the Orion laser; measurements of the spectrum of hot, dense aluminium

Author: J.W.O. Harris, James Dunn, Gregory V. Brown, P. Allan, D.J. Hoarty, Steven James, Hui Chen, C. R. D. Brown, J. W. Morton, E. Von Marley, Ronnie Shepherd, L. Hobbs, Richard W. Lee, Peter Beiersdorfer, M. G. Brookes, J. Emig, M. P. Hill, and Hyun Chung
Subjects: History, Nuclear and High Energy Physics, Radiation, Materials science, Electron shell, chemistry.chemical_element, Plasma, Electron, Laser, Spectral line, Computer Science Applications, Education, law.invention, Ion, chemistry, law, Aluminium, Emission spectrum, Atomic physics, Ionization energy, Spectroscopy
Abstract: The newly commissioned Orion laser system has been used to study dense plasmas created by a combination of short pulse laser heating and compression by laser driven shocks. Thus the plasma density was systematically varied between 1 and 10 g/cc by using aluminium samples buried in plastic foils or diamond sheets. The aluminium was heated to electron temperatures between 500 eV and 700 eV allowing the plasma conditions to be diagnosed by K-shell emission spectroscopy. The K-shell spectra show the effect of the ionization potential depression as a function of density via the delocalization of n = 3 levels and disappearance of n = 3 transitions in He-like and H-like aluminium. The data are compared to simulated spectra, which account for the change in the ionization potential by the commonly used Stewart and Pyatt prescription; a simple ion sphere model and an alternative due to Ecker and Kroll suggested by recent X-ray free-electron laser experiments. The experimental data are in reasonable agreement with the model of Stewart and Pyatt, but are in better agreement with a simple ion sphere model. The data indicate that the Ecker and Kroll model overestimates substantially the ionization potential depression in this regime.
Published: 2013

50. Equation of state studies of warm dense matter samples heated by laser produced proton beams

Author: H. W. Doyle, John J. L. Morton, E. T. Gumbrell, T. M. Guymer, C. R. D. Brown, M. P. Hill, Steven James, and David Hoarty
Subjects: Physics, Nuclear and High Energy Physics, Equation of state, Range (particle radiation), Radiation, Proton, chemistry.chemical_element, Warm dense matter, Laser, law.invention, chemistry, Aluminium, law, Phase (matter), Atomic physics, Adiabatic process
Abstract: Heating of matter by proton beams produced by short pulse, laser-solid target interaction has been demonstrated over the last ten years by a number of workers. In the work described in this paper heating by a pulse of laser produced protons has been combined with high-resolution soft x-ray radiography to record the expansion of thin wire targets. Analysis of the radiographs yields material properties in the warm dense matter regime. These measurements imply initial temperatures in the experimental samples over a range from 14 eV up to 40 eV; the sample densities varied from solid to a tenth solid density. Assuming an adiabatic expansion after the initial proton heating phase isentropes of the aluminium sample material were inferred and compared to tabulated data from the SESAME equation of state library. The proton spectrum was also measured using calibrated magnetic spectrometers and radiochromic film. The accuracy of the technique used to infer material data is discussed along with possible future development.
Published: 2016

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