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1. Faint objects in motion: the new frontier of high precision astrometry

Author

Malbet, Fabien, Boehm, Céline, Krone-Martins, Alberto, Amorim, Antonio, Anglada-Escudé, Guillem, Brandeker, Alexis, Courbin, Frédéric, Enßlin, Torsten, Falcão, Antonio, Freese, Katherine, Holl, Berry, Labadie, Lucas, Léger, Alain, Mamon, Gary, Mcarthur, Barbara, Mora, Alcione, Shao, Mike, Sozzetti, Alessandro, Spolyar, Douglas, Villaver, Eva, Abbas, Ummi, Albertus, Conrado, Alves, João, Barnes, Rory, Bonomo, Aldo Stefano, Bouy, Hervé, Brown, Warren, Cardoso, Vitor, Castellani, Marco, Chemin, Laurent, Clark, Hamish, Correia, Alexandre, Crosta, Mariateresa, Crouzier, Antoine, Damasso, Mario, Darling, Jeremy, Davies, Melvyn, Diaferio, Antonaldo, Fortin, Morgane, Fridlund, Malcolm, Gai, Mario, Garcia, Paulo, Gnedin, Oleg, Goobar, Ariel, Gordo, Paulo, Goullioud, Renaud, Hall, David, Hambly, Nigel, Harrison, Diana, Hobbs, David, Holland, Andrew, Høg, Erik, Jordi, Carme, Klioner, Sergei, Lançon, Ariane, Laskar, Jacques, Lattanzi, Mario, Poncin-Lafitte, Christophe Le, Luri, Xavier, Michalik, Daniel, de Almeida, André Moitinho, Mourão, Ana, Moustakas, Leonidas, Murray, Neil, Muterspaugh, Matthew, Oertel, Micaela, Ostorero, Luisa, Portell, Jordi, Prost, Jean-Pierre, Quirrenbach, Andreas, Schneider, Jean, Scott, Pat, Siebert, Arnaud, Da Silva, Antonio, Silva, Manuel, Thébault, Philippe, Tomsick, John, Traub, Wesley, de Val-Borro, Miguel, Valluri, Monica, Walton, Nicholas, Watkins, Laura, White, Glenn, Wyrzykowski, Lukasz, Wyse, Rosemary, and Yamada, Yoshiyuki

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Astrophysics of Galaxies, Astrophysics - High Energy Astrophysical Phenomena
Abstract

Sky survey telescopes and powerful targeted telescopes play complementary roles in astronomy. In order to investigate the nature and characteristics of the motions of very faint objects, a flexibly-pointed instrument capable of high astrometric accuracy is an ideal complement to current astrometric surveys and a unique tool for precision astrophysics. Such a space-based mission will push the frontier of precision astrometry from evidence of Earth-mass habitable worlds around the nearest stars, to distant Milky Way objects, and out to the Local Group of galaxies. As we enter the era of the James Webb Space Telescope and the new ground-based, adaptive-optics-enabled giant telescopes, by obtaining these high precision measurements on key objects that Gaia could not reach, a mission that focuses on high precision astrometry science can consolidate our theoretical understanding of the local Universe, enable extrapolation of physical processes to remote redshifts, and derive a much more consistent picture of cosmological evolution and the likely fate of our cosmos. Already several missions have been proposed to address the science case of faint objects in motion using high precision astrometry missions: NEAT proposed for the ESA M3 opportunity, micro-NEAT for the S1 opportunity, and Theia for the M4 and M5 opportunities. Additional new mission configurations adapted with technological innovations could be envisioned to pursue accurate measurements of these extremely small motions. The goal of this White Paper is to address the fundamental science questions that are at stake when we focus on the motions of faint sky objects and to briefly review instrumentation and mission profiles., Comment: arXiv admin note: substantial text overlap with arXiv:1910.08028, arXiv:1707.01348

Published
2021
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3. Dark matter substructure cannot explain properties of the Fermi Galactic Centre excess

Author

Clark, Hamish A., Scott, Pat, Trotta, Roberto, and Lewis, Geraint F.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Phenomenology
Abstract

An excess of gamma rays has been identified at the centre of the Milky Way, and annihilation of dark matter has been posited as a potential source. This hypothesis faces significant challenges: difficulty characterizing astrophysical backgrounds, the need for a non-trivial adiabatic contraction of the inner part of the Milky Way's dark matter halo, and recent observations of photon clustering, which suggest that the majority of the excess is due to unresolved point sources. Here we point out that the apparent point-like nature of the emission rules out the dark matter interpretation of the excess entirely. Attempting to model the emission with dark matter point sources either worsens the problem with the inner slope, requires an unrealistically large minihalo fraction toward the Galactic Centre, or overproduces the observed emission at higher latitudes., Comment: 14 pages, 4 figures

Published
2016
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4. Heating of galactic gas by dark matter annihilation in ultracompact minihalos

Author

Clark, Hamish A., Iwanus, Nikolas, Elahi, Pascal J., Lewis, Geraint F., and Scott, Pat

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Phenomenology
Abstract

The existence of substructure in halos of annihilating dark matter would be expected to substantially boost the rate at which annihilation occurs. Ultracompact minihalos of dark matter (UCMHs) are one of the more extreme examples of this. The boosted annihilation can inject significant amounts of energy into the gas of a galaxy over its lifetime. Here we determine the impact of the boost factor from UCMH substructure on the heating of galactic gas in a Milky Way-type galaxy, by means of N-body simulation. If $1\%$ of the dark matter exists as UCMHs, the corresponding boost factor can be of order $10^5$. For reasonable values of the relevant parameters (annihilation cross section $3\times10^{-26} ~\textrm{cm}^3~ \textrm{s}^{-1}$, dark matter mass 100 GeV, 10% heating efficiency), we show that the presence of UCMHs at the 0.1% level would inject enough energy to eject significant amounts of gas from the halo, potentially preventing star formation within $\sim$1 kpc of the halo centre., Comment: 14 pages, 3 figures

Published
2016
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5. A computational approach to the twin paradox in curved spacetime

Author

Fung, Kenneth K. H., Clark, Hamish A., Lewis, Geraint F., and Wu, Xiaofeng

Subjects
General Relativity and Quantum Cosmology
Abstract

Despite being a major component in the teaching of special relativity, the twin `paradox' is generally not examined in courses on general relativity. Due to the complexity of analytical solutions to the problem, the paradox is often neglected entirely, and students are left with an incomplete understanding of the relativistic behaviour of time. This article outlines a project, undertaken by undergraduate physics students at the University of Sydney, in which a novel computational method was derived in order to predict the time experienced by a twin following a number of paths between two given spacetime coordinates. By utilising this method, it is possible to make clear to students that following a geodesic in curved spacetime does not always result in the greatest experienced proper time., Comment: 14 pages, 5 figues, Accepted for publication in EJP

Published
2016
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6. Ultracompact minihalos as probes of inflationary cosmology

Author

Aslanyan, Grigor, Price, Layne C., Adams, Jenni, Bringmann, Torsten, Clark, Hamish A., Easther, Richard, Lewis, Geraint F., and Scott, Pat

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology
Abstract

Cosmological inflation generates primordial density perturbations on all scales, including those far too small to contribute to the cosmic microwave background. At these scales, isolated ultracompact minihalos of dark matter can form well before standard structure formation, if the perturbations have sufficient amplitude. Minihalos affect pulsar timing data and are potentially bright sources of gamma rays. The resulting constraints significantly extend the observable window of inflation in the presence of cold dark matter, coupling two of the key problems in modern cosmology., Comment: 6 pages, 2 figures, 2 tables; matches published version

Published
2015
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7. Investigating dark matter substructure with pulsar timing: II. Improved limits on small-scale cosmology

Author

Clark, Hamish A., Lewis, Geraint F., and Scott, Pat

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology
Abstract

Ultracompact Minihalos (UCMHs) have been proposed as a type of dark matter sub-structure seeded by large-amplitude primordial perturbations and topological defects. UCMHs are expected to survive to the present era, allowing constraints to be placed on their cosmic abundance using observations within our own Galaxy. Constraints on their number density can be linked to conditions in the early universe that impact structure formation, such as increased primordial power on small scales, generic weak non-Gaussianity, and the presence of cosmic strings. We use new constraints on the abundance of UCMHs from pulsar timing to place generalised limits on the parameters of each of these cosmological scenarios. At some scales, the limits are the strongest to date, exceeding those from dark matter annihilation. Our new limits have the added advantage of being independent of the particle nature of dark matter, as they are based only on gravitational effects., Comment: 13 pages, 10 figures, includes erratum published in MNRAS

Published
2015
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8. Investigating dark matter substructure with pulsar timing: I. Constraints on ultracompact minihalos

Author

Clark, Hamish A., Lewis, Geraint F., and Scott, Pat

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies, General Relativity and Quantum Cosmology
Abstract

Small-scale dark matter structure within the Milky Way is expected to affect pulsar timing. The change in gravitational potential induced by a dark matter halo passing near the line of sight to a pulsar would produce a varying delay in the light travel time of photons from the pulsar. Individual transits produce an effect that would either be too rare or too weak to be detected in 30-year pulsar observations. However, a population of dark matter subhalos would be expected to produce a detectable effect on the measured properties of pulsars if the subhalos constitute a significant fraction of the total halo mass. The effect is to increase the dispersion of measured period derivatives across the pulsar population. By statistical analysis of the ATNF pulsar catalogue, we place an upper limit on this dispersion of $\log \sigma_{\dot{P}} \leq -17.05$. We use this to place strong upper limits on the number density of ultracompact minihalos within the Milky Way. These limits are completely independent of the particle nature of dark matter., Comment: 9 pages, 5 figues, includes erratum published in MNRAS

Published
2015
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9. What I see

Author

Hansen, Te Onematua Noel and Clark, Hamish

Published
2020

12. the new frontier of high precision astrometry

Author

Malbet, Fabien, Boehm, Céline, Krone-Martins, Alberto, Amorim, Antonio, Anglada-Escudé, Guillem, Brandeker, Alexis, Courbin, Frédéric, Enßlin, Torsten, Falcão, Antonio, Freese, Katherine, Holl, Berry, Labadie, Lucas, Léger, Alain, Mamon, Gary A., McArthur, Barbara, Mora, Alcione, Shao, Mike, Sozzetti, Alessandro, Spolyar, Douglas, Villaver, Eva, Abbas, Ummi, Albertus, Conrado, Alves, João, Barnes, Rory, Bonomo, Aldo Stefano, Bouy, Hervé, Brown, Warren R., Cardoso, Vitor, Castellani, Marco, Chemin, Laurent, Clark, Hamish, Correia, Alexandre C.M., Crosta, Mariateresa, Crouzier, Antoine, Damasso, Mario, Darling, Jeremy, Davies, Melvyn B., Diaferio, Antonaldo, Fortin, Morgane, Fridlund, Malcolm, Gai, Mario, Garcia, Paulo, Gnedin, Oleg, Goobar, Ariel, Gordo, Paulo, Goullioud, Renaud, Hall, David, Hambly, Nigel, Harrison, Diana, Hobbs, David, Holland, Andrew, Høg, Erik, Jordi, Carme, Klioner, Sergei, Lançon, Ariane, Laskar, Jacques, Lattanzi, Mario, Le Poncin-Lafitte, Christophe, Luri, Xavier, Michalik, Daniel, de Almeida, André Moitinho, Mourão, Ana, Moustakas, Leonidas, Murray, Neil J., Muterspaugh, Matthew, Oertel, Micaela, Ostorero, Luisa, Portell, Jordi, Prost, Jean Pierre, Quirrenbach, Andreas, Schneider, Jean, Scott, Pat, Siebert, Arnaud, Silva, Antonio da, Silva, Manuel, Thébault, Philippe, Tomsick, John, Traub, Wesley, de Val-Borro, Miguel, Valluri, Monica, Walton, Nicholas A., White, Glenn, Watkins, Laura L., Wyrzykowski, Lukasz, Wyse, Rosemary, Yamada, Yoshiyuki, and UNINOVA-Instituto de Desenvolvimento de Novas Tecnologias

Subjects
Local universe, Space and Planetary Science, Exoplanets, Astronomy and Astrophysics, Astrometry, Space mission, Cosmology
Abstract

Open access funding provided by Istituto Nazionale di Astrofisica within the CRUI-CARE Agreement. Publisher Copyright: © 2021, The Author(s). Sky survey telescopes and powerful targeted telescopes play complementary roles in astronomy. In order to investigate the nature and characteristics of the motions of very faint objects, a flexibly-pointed instrument capable of high astrometric accuracy is an ideal complement to current astrometric surveys and a unique tool for precision astrophysics. Such a space-based mission will push the frontier of precision astrometry from evidence of Earth-mass habitable worlds around the nearest stars, to distant Milky Way objects, and out to the Local Group of galaxies. As we enter the era of the James Webb Space Telescope and the new ground-based, adaptive-optics-enabled giant telescopes, by obtaining these high precision measurements on key objects that Gaia could not reach, a mission that focuses on high precision astrometry science can consolidate our theoretical understanding of the local Universe, enable extrapolation of physical processes to remote redshifts, and derive a much more consistent picture of cosmological evolution and the likely fate of our cosmos. Already several missions have been proposed to address the science case of faint objects in motion using high precision astrometry missions: NEAT proposed for the ESA M3 opportunity, micro-NEAT for the S1 opportunity, and Theia for the M4 and M5 opportunities. Additional new mission configurations adapted with technological innovations could be envisioned to pursue accurate measurements of these extremely small motions. The goal of this White Paper is to address the fundamental science questions that are at stake when we focus on the motions of faint sky objects and to briefly review instrumentation and mission profiles. publishersversion published

Published
2021

13. Faint objects in motion: the new frontier of high precision astrometry

Author

Malbet, Fabien, primary, Boehm, Céline, additional, Krone-Martins, Alberto, additional, Amorim, Antonio, additional, Anglada-Escudé, Guillem, additional, Brandeker, Alexis, additional, Courbin, Frédéric, additional, Enßlin, Torsten, additional, Falcão, Antonio, additional, Freese, Katherine, additional, Holl, Berry, additional, Labadie, Lucas, additional, Léger, Alain, additional, Mamon, Gary A., additional, McArthur, Barbara, additional, Mora, Alcione, additional, Shao, Mike, additional, Sozzetti, Alessandro, additional, Spolyar, Douglas, additional, Villaver, Eva, additional, Abbas, Ummi, additional, Albertus, Conrado, additional, Alves, João, additional, Barnes, Rory, additional, Bonomo, Aldo Stefano, additional, Bouy, Hervé, additional, Brown, Warren R., additional, Cardoso, Vitor, additional, Castellani, Marco, additional, Chemin, Laurent, additional, Clark, Hamish, additional, Correia, Alexandre C. M., additional, Crosta, Mariateresa, additional, Crouzier, Antoine, additional, Damasso, Mario, additional, Darling, Jeremy, additional, Davies, Melvyn B., additional, Diaferio, Antonaldo, additional, Fortin, Morgane, additional, Fridlund, Malcolm, additional, Gai, Mario, additional, Garcia, Paulo, additional, Gnedin, Oleg, additional, Goobar, Ariel, additional, Gordo, Paulo, additional, Goullioud, Renaud, additional, Hall, David, additional, Hambly, Nigel, additional, Harrison, Diana, additional, Hobbs, David, additional, Holland, Andrew, additional, Høg, Erik, additional, Jordi, Carme, additional, Klioner, Sergei, additional, Lançon, Ariane, additional, Laskar, Jacques, additional, Lattanzi, Mario, additional, Le Poncin-Lafitte, Christophe, additional, Luri, Xavier, additional, Michalik, Daniel, additional, de Almeida, André Moitinho, additional, Mourão, Ana, additional, Moustakas, Leonidas, additional, Murray, Neil J., additional, Muterspaugh, Matthew, additional, Oertel, Micaela, additional, Ostorero, Luisa, additional, Portell, Jordi, additional, Prost, Jean-Pierre, additional, Quirrenbach, Andreas, additional, Schneider, Jean, additional, Scott, Pat, additional, Siebert, Arnaud, additional, Silva, Antonio da, additional, Silva, Manuel, additional, Thébault, Philippe, additional, Tomsick, John, additional, Traub, Wesley, additional, de Val-Borro, Miguel, additional, Valluri, Monica, additional, Walton, Nicholas A., additional, Watkins, Laura L., additional, White, Glenn, additional, Wyrzykowski, Lukasz, additional, Wyse, Rosemary, additional, and Yamada, Yoshiyuki, additional

Published
2021
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14. Faint objects in motion:the new frontier of high precision astrometry

Author

Malbet, Fabien, Boehm, Celine, Krone-Martins, Alberto, Amorim, Antonio, Anglada-Escude, Guillem, Brandeker, Alexis, Courbin, Frederic, Ensslin, Torsten, Falcao, Antonio, Freese, Katherine, Holl, Berry, Labadie, Lucas, Leger, Alain, Mamon, Gary A., McArthur, Barbara, Mora, Alcione, Shao, Mike, Sozzetti, Alessandro, Spolyar, Douglas, Villaver, Eva, Abbas, Ummi, Albertus, Conrado, Alves, Joao, Barnes, Rory, Bonomo, Aldo Stefano, Bouy, Herve, Brown, Warren R., Cardoso, Vitor, Castellani, Marco, Chemin, Laurent, Clark, Hamish, Correia, Alexandre C. M., Crosta, Mariateresa, Crouzier, Antoine, Damasso, Mario, Darling, Jeremy, Davies, Melvyn B., Diaferio, Antonaldo, Fortin, Morgane, Fridlund, Malcolm, Gai, Mario, Garcia, Paulo, Gnedin, Oleg, Goobar, Ariel, Gordo, Paulo, Goullioud, Renaud, Hall, David, Hambly, Nigel, Harrison, Diana, Hobbs, David, Holland, Andrew, Hog, Erik, Jordi, Carme, Klioner, Sergei, Lancon, Ariane, Laskar, Jacques, Lattanzi, Mario, Le Poncin-Lafitte, Christophe, Luri, Xavier, Michalik, Daniel, de Almeida, Andre Moitinho, Mourao, Ana, Moustakas, Leonidas, Murray, Neil J., Muterspaugh, Matthew, Oertel, Micaela, Ostorero, Luisa, Portell, Jordi, Prost, Jean-Pierre, Quirrenbach, Andreas, Schneider, Jean, Scott, Pat, Siebert, Arnaud, da Silva, Antonio, Silva, Manuel, Thebault, Philippe, Tomsick, John, Traub, Wesley, de Val-Borro, Miguel, Valluri, Monica, Walton, Nicholas A., Watkins, Laura L., White, Glenn, Wyrzykowski, Lukasz, Wyse, Rosemary, Yamada, Yoshiyuki, Malbet, Fabien, Boehm, Celine, Krone-Martins, Alberto, Amorim, Antonio, Anglada-Escude, Guillem, Brandeker, Alexis, Courbin, Frederic, Ensslin, Torsten, Falcao, Antonio, Freese, Katherine, Holl, Berry, Labadie, Lucas, Leger, Alain, Mamon, Gary A., McArthur, Barbara, Mora, Alcione, Shao, Mike, Sozzetti, Alessandro, Spolyar, Douglas, Villaver, Eva, Abbas, Ummi, Albertus, Conrado, Alves, Joao, Barnes, Rory, Bonomo, Aldo Stefano, Bouy, Herve, Brown, Warren R., Cardoso, Vitor, Castellani, Marco, Chemin, Laurent, Clark, Hamish, Correia, Alexandre C. M., Crosta, Mariateresa, Crouzier, Antoine, Damasso, Mario, Darling, Jeremy, Davies, Melvyn B., Diaferio, Antonaldo, Fortin, Morgane, Fridlund, Malcolm, Gai, Mario, Garcia, Paulo, Gnedin, Oleg, Goobar, Ariel, Gordo, Paulo, Goullioud, Renaud, Hall, David, Hambly, Nigel, Harrison, Diana, Hobbs, David, Holland, Andrew, Hog, Erik, Jordi, Carme, Klioner, Sergei, Lancon, Ariane, Laskar, Jacques, Lattanzi, Mario, Le Poncin-Lafitte, Christophe, Luri, Xavier, Michalik, Daniel, de Almeida, Andre Moitinho, Mourao, Ana, Moustakas, Leonidas, Murray, Neil J., Muterspaugh, Matthew, Oertel, Micaela, Ostorero, Luisa, Portell, Jordi, Prost, Jean-Pierre, Quirrenbach, Andreas, Schneider, Jean, Scott, Pat, Siebert, Arnaud, da Silva, Antonio, Silva, Manuel, Thebault, Philippe, Tomsick, John, Traub, Wesley, de Val-Borro, Miguel, Valluri, Monica, Walton, Nicholas A., Watkins, Laura L., White, Glenn, Wyrzykowski, Lukasz, Wyse, Rosemary, and Yamada, Yoshiyuki

Abstract

Sky survey telescopes and powerful targeted telescopes play complementary roles in astronomy. In order to investigate the nature and characteristics of the motions of very faint objects, a flexibly-pointed instrument capable of high astrometric accuracy is an ideal complement to current astrometric surveys and a unique tool for precision astrophysics. Such a space-based mission will push the frontier of precision astrometry from evidence of Earth-mass habitable worlds around the nearest stars, to distant Milky Way objects, and out to the Local Group of galaxies. As we enter the era of the James Webb Space Telescope and the new ground-based, adaptive-optics-enabled giant telescopes, by obtaining these high precision measurements on key objects that Gaia could not reach, a mission that focuses on high precision astrometry science can consolidate our theoretical understanding of the local Universe, enable extrapolation of physical processes to remote redshifts, and derive a much more consistent picture of cosmological evolution and the likely fate of our cosmos. Already several missions have been proposed to address the science case of faint objects in motion using high precision astrometry missions: NEAT proposed for the ESA M3 opportunity, micro-NEAT for the S1 opportunity, and Theia for the M4 and M5 opportunities. Additional new mission configurations adapted with technological innovations could be envisioned to pursue accurate measurements of these extremely small motions. The goal of this White Paper is to address the fundamental science questions that are at stake when we focus on the motions of faint sky objects and to briefly review instrumentation and mission profiles.

Published
2021

16. Current issues in plant cryopreservation and importance for ex situ conservation of threatened Australian native species

Author

Streczynski, Robyn, Clark, Hamish, Whelehan, Lily M., Ang, Sze-Tieng, Hardstaff, Lyndle K., Funnekotter, Bryn, Bunn, Eric, Offord, C.A., Sommerville, K.D., Mancera, Ricardo, Streczynski, Robyn, Clark, Hamish, Whelehan, Lily M., Ang, Sze-Tieng, Hardstaff, Lyndle K., Funnekotter, Bryn, Bunn, Eric, Offord, C.A., Sommerville, K.D., and Mancera, Ricardo

Abstract

An alarming proportion of Australia's unique plant biodiversity is under siege from a variety of environmental threats. Options for in situ conservation are becoming increasingly compromised as encroaching land use, climate change and introduced diseases are highly likely to erode sanctuaries regardless of best intentions. Ex situ conservation is currently limited to botanic garden living collections and seed banking, with in vitro and cryopreservation technologies still being developed to address ex situ conservation of species not amenable to conventional storage. Cryopreservation (storage in liquid nitrogen) has been used successfully for long-term biosecure storage of shoot tips of several species of threatened Australian plants. We present a case for building on this research and fostering further development and utilisation of cryopreservation as the best means of capturing critical germplasm collections of Australian species with special storage requirements (e.g. recalcitrant-seeded taxa and species with short-lived seeds) that currently cannot be preserved effectively by other means. This review highlights the major issues in cryopreservation that can limit survival including ice crystal damage and desiccation, toxicity of cryoprotective agents, membrane damage, oxidative stress and mitochondrial function. Progress in understanding and mitigating these stresses is vital for advancing cryopreservation for conservation purposes.

Published
2019

17. Dark Matter Indirect Detection, Gravitational Lensing, and Substructure

Author

Clark, Hamish

Subjects
Dark matter, substructure, annihilation, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Galaxy Astrophysics
Abstract

The nature of dark matter is one of the largest unsolved astrophysical mysteries. A principal component of the standard model of cosmology, ΛCDM, it constitutes the bulk of structure within the Universe. While its distribution on large scales is well known, on sub-galactic scales these properties are far more poorly constrained. These substructures contain some of the highest densities of dark matter in the Universe, and so are exemplary targets for astrophysical searches - either by indirect detection or gravitational lensing. In this thesis, I investigate methods that utilise the substructure of dark matter in order to constrain the properties of the Universe. Through both gravitational lensing and searches for signatures of dark matter annihilation, I investigate the effect that the presence of dense substructures would have on our astrophysical observations. I discuss the effect that ultracompact substructures would have on pulsar timing. Using archival data, I constrain the abundance of such substructures, and show how these constraints can be applied to the properties of the early Universe. Similarly, as part of the science case of the Theia mission proposal, I explore the effect that substructures would have on the likelihood of microlensing events. In the case that dark matter annihilates, substructures would be strong sources of annihilation products. I investigate the heating of surrounding gas that annihilation products would cause, as well as the effect that substructure would have on the apparent point-like nature of the gamma-ray signal at the Galactic Centre.

Published
2018

30. Investigating dark matter substructure with pulsar timing - I. Constraints on ultracompact minihaloes.

Author

Clark, Hamish A., Lewis, Geraint F., and Scott, Pat

Subjects
*DARK matter, *PULSARS, *GALACTIC halos, *GRAVITATIONAL potential, *MILKY Way, UNIVERSE
Abstract

Small-scale dark matter structure within the Milky Way is expected to affect pulsar timing. The change in gravitational potential induced by a dark matter halo passing near the line of sight to a pulsar would produce a varying delay in the light travel time of photons from the pulsar. Individual transits produce an effect that would either be too rare or too weak to be detected in 30-yr pulsar observations. However, a population of dark matter subhaloes would be expected to produce a detectable effect on the measured properties of pulsars if the subhaloes constitute a significant fraction of the total halo mass. The effect is to increase the dispersion of measured period derivatives across the pulsar population. By statistical analysis of the ATNF pulsar catalogue, we place an upper limit on this dispersion of log σṗ ≤ -17.05. We use this to place strong upper limits on the number density of ultracompact minihaloes within the Milky Way. These limits are completely independent of the particle nature of dark matter. [ABSTRACT FROM AUTHOR]

Published
2016
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31. Investigating dark matter substructure with pulsar timing - II. Improved limits on small-scale cosmology.

Author

Clark, Hamish A., Lewis, Geraint F., and Scott, Pat

Subjects
*DARK matter, *PULSARS, *ASTRONOMICAL perturbation, *ASTRONOMICAL observations, *GALAXY formation, *SMALL scale system
Abstract

Ultracompact minihaloes (UCMHs) have been proposed as a type of dark matter substructure seeded by large-amplitude primordial perturbations and topological defects. UCMHs are expected to survive to the present era, allowing constraints to be placed on their cosmic abundance using observations within our own Galaxy. Constraints on their number density can be linked to conditions in the early Universe that impact structure formation, such as increased primordial power on small scales, generic weak non-Gaussianity, and the presence of cosmic strings. We use new constraints on the abundance of UCMHs from pulsar timing to place generalized limits on the parameters of each of these cosmological scenarios. At some scales, the limits are the strongest to date, exceeding those from dark matter annihilation. Our new limits have the added advantage of being independent of the particle nature of dark matter, as they are based only on gravitational effects. [ABSTRACT FROM AUTHOR]

Published
2016
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32. The study of conflict in South Africa and Northern Ireland*.

Author

Dickie‐Clark, Hamish

Abstract

The paper suggests a framework for the comparative study of the situations in South Africa and Northern Ireland. It builds on John Rex's view of a race relations situation and compares both the overt practices of discrimination and also the inner perceptions and interpretations of the participants. One aim is to establish, for these two areas, whether the decisive causes of the intractable character of the conflicts lie in the economic and political conditions which obtain or in the way these situations are perceived and understood by the groups in them. Another aim is to suggest how the differences between South Africa and Northern Ireland ‐ in both the practice of inequality and also in the racist or sectarian ideology used to justify it ‐ might or might not make for a peaceful resolution of the conflicts. [ABSTRACT FROM PUBLISHER]

Published
1976
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33. Readers' Letters.

Author

Clark, Hamish, Wood, Giles, Prodmore, Rod, Wood, Bridget, Theodorou, Michael, Boulton, John, Rattigan, John, Purchase, David, Jones, Diana, Kosner, Ed, Rowe, Jeremy D., and Watkins, Lucien

Published
2020

34. My bit of Britain.

Author

Clark, Hamish

Subjects
*TELEVISION actors & actresses, *TRAVEL, *TELEVISION programs, *ENGLISH literature
Abstract

Actor Hamish Clark, one of the many stars of the television program "Monarch of the Glen," talks about his love for Scotland. He lived in Edinburgh, Scotland for some time after studying English literature at university there and had a spell in Manchester doing a TV comedy drama "My Wonderful Life." The shoreline rocks and crags, there are green pastures and, after there's been wet weather, it sparkles with sunshine Altering through the glistening rain still on the tree branches. They all are very special to Clark. There are fond memories of the pretty little villages, Salen. He did an English literature degree but found himself more and more involved in theatre and he wanted to express himself through acting.

Published
2003

35. Faint objects in motion: the new frontier of high precision astrometry

Author

Malbet, Fabien, Boehm, Céline, Krone-Martins, Alberto, Amorim, Antonio, Anglada-Escudé, Guillem, Brandeker, Alexis, Courbin, Frédéric, Enßlin, Torsten, Falcão, Antonio, Freese, Katherine, Holl, Berry, Labadie, Lucas, Léger, Alain, Mamon, Gary A., McArthur, Barbara, Mora, Alcione, Shao, Mike, Sozzetti, Alessandro, Spolyar, Douglas, Villaver, Eva, Abbas, Ummi, Albertus, Conrado, Alves, João, Barnes, Rory, Bonomo, Aldo Stefano, Bouy, Hervé, Brown, Warren R., Cardoso, Vitor, Castellani, Marco, Chemin, Laurent, Clark, Hamish, Correia, Alexandre C. M., Crosta, Mariateresa, Crouzier, Antoine, Damasso, Mario, Darling, Jeremy, Davies, Melvyn B., Diaferio, Antonaldo, Fortin, Morgane, Fridlund, Malcolm, Gai, Mario, Garcia, Paulo, Gnedin, Oleg, Goobar, Ariel, Gordo, Paulo, Goullioud, Renaud, Hall, David, Hambly, Nigel, Harrison, Diana, Hobbs, David, Holland, Andrew, Høg, Erik, Jordi, Carme, Klioner, Sergei, Lançon, Ariane, Laskar, Jacques, Lattanzi, Mario, Le Poncin-Lafitte, Christophe, Luri, Xavier, Michalik, Daniel, de Almeida, André Moitinho, Mourão, Ana, Moustakas, Leonidas, Murray, Neil J., Muterspaugh, Matthew, Oertel, Micaela, Ostorero, Luisa, Portell, Jordi, Prost, Jean-Pierre, Quirrenbach, Andreas, Schneider, Jean, Scott, Pat, Siebert, Arnaud, Silva, Antonio da, Silva, Manuel, Thébault, Philippe, Tomsick, John, Traub, Wesley, de Val-Borro, Miguel, Valluri, Monica, Walton, Nicholas A., Watkins, Laura L., White, Glenn, Wyrzykowski, Lukasz, Wyse, Rosemary, Yamada, Yoshiyuki, Malbet, Fabien, Boehm, Céline, Krone-Martins, Alberto, Amorim, Antonio, Anglada-Escudé, Guillem, Brandeker, Alexis, Courbin, Frédéric, Enßlin, Torsten, Falcão, Antonio, Freese, Katherine, Holl, Berry, Labadie, Lucas, Léger, Alain, Mamon, Gary A., McArthur, Barbara, Mora, Alcione, Shao, Mike, Sozzetti, Alessandro, Spolyar, Douglas, Villaver, Eva, Abbas, Ummi, Albertus, Conrado, Alves, João, Barnes, Rory, Bonomo, Aldo Stefano, Bouy, Hervé, Brown, Warren R., Cardoso, Vitor, Castellani, Marco, Chemin, Laurent, Clark, Hamish, Correia, Alexandre C. M., Crosta, Mariateresa, Crouzier, Antoine, Damasso, Mario, Darling, Jeremy, Davies, Melvyn B., Diaferio, Antonaldo, Fortin, Morgane, Fridlund, Malcolm, Gai, Mario, Garcia, Paulo, Gnedin, Oleg, Goobar, Ariel, Gordo, Paulo, Goullioud, Renaud, Hall, David, Hambly, Nigel, Harrison, Diana, Hobbs, David, Holland, Andrew, Høg, Erik, Jordi, Carme, Klioner, Sergei, Lançon, Ariane, Laskar, Jacques, Lattanzi, Mario, Le Poncin-Lafitte, Christophe, Luri, Xavier, Michalik, Daniel, de Almeida, André Moitinho, Mourão, Ana, Moustakas, Leonidas, Murray, Neil J., Muterspaugh, Matthew, Oertel, Micaela, Ostorero, Luisa, Portell, Jordi, Prost, Jean-Pierre, Quirrenbach, Andreas, Schneider, Jean, Scott, Pat, Siebert, Arnaud, Silva, Antonio da, Silva, Manuel, Thébault, Philippe, Tomsick, John, Traub, Wesley, de Val-Borro, Miguel, Valluri, Monica, Walton, Nicholas A., Watkins, Laura L., White, Glenn, Wyrzykowski, Lukasz, Wyse, Rosemary, and Yamada, Yoshiyuki

Abstract

Sky survey telescopes and powerful targeted telescopes play complementary roles in astronomy. In order to investigate the nature and characteristics of the motions of very faint objects, a flexibly-pointed instrument capable of high astrometric accuracy is an ideal complement to current astrometric surveys and a unique tool for precision astrophysics. Such a space-based mission will push the frontier of precision astrometry from evidence of Earth-mass habitable worlds around the nearest stars, to distant Milky Way objects, and out to the Local Group of galaxies. As we enter the era of the James Webb Space Telescope and the new ground-based, adaptive-optics-enabled giant telescopes, by obtaining these high precision measurements on key objects that Gaia could not reach, a mission that focuses on high precision astrometry science can consolidate our theoretical understanding of the local Universe, enable extrapolation of physical processes to remote redshifts, and derive a much more consistent picture of cosmological evolution and the likely fate of our cosmos. Already several missions have been proposed to address the science case of faint objects in motion using high precision astrometry missions: NEAT proposed for the ESA M3 opportunity, micro-NEAT for the S1 opportunity, and Theia for the M4 and M5 opportunities. Additional new mission configurations adapted with technological innovations could be envisioned to pursue accurate measurements of these extremely small motions. The goal of this White Paper is to address the fundamental science questions that are at stake when we focus on the motions of faint sky objects and to briefly review instrumentation and mission profiles.

36. Faint objects in motion: the new frontier of high precision astrometry

Author

Malbet, Fabien, Boehm, Céline, Krone-Martins, Alberto, Amorim, Antonio, Anglada-Escudé, Guillem, Brandeker, Alexis, Courbin, Frédéric, Enßlin, Torsten, Falcão, Antonio, Freese, Katherine, Holl, Berry, Labadie, Lucas, Léger, Alain, Mamon, Gary A., McArthur, Barbara, Mora, Alcione, Shao, Mike, Sozzetti, Alessandro, Spolyar, Douglas, Villaver, Eva, Abbas, Ummi, Albertus, Conrado, Alves, João, Barnes, Rory, Bonomo, Aldo Stefano, Bouy, Hervé, Brown, Warren R., Cardoso, Vitor, Castellani, Marco, Chemin, Laurent, Clark, Hamish, Correia, Alexandre C. M., Crosta, Mariateresa, Crouzier, Antoine, Damasso, Mario, Darling, Jeremy, Davies, Melvyn B., Diaferio, Antonaldo, Fortin, Morgane, Fridlund, Malcolm, Gai, Mario, Garcia, Paulo, Gnedin, Oleg, Goobar, Ariel, Gordo, Paulo, Goullioud, Renaud, Hall, David, Hambly, Nigel, Harrison, Diana, Hobbs, David, Holland, Andrew, Høg, Erik, Jordi, Carme, Klioner, Sergei, Lançon, Ariane, Laskar, Jacques, Lattanzi, Mario, Le Poncin-Lafitte, Christophe, Luri, Xavier, Michalik, Daniel, de Almeida, André Moitinho, Mourão, Ana, Moustakas, Leonidas, Murray, Neil J., Muterspaugh, Matthew, Oertel, Micaela, Ostorero, Luisa, Portell, Jordi, Prost, Jean-Pierre, Quirrenbach, Andreas, Schneider, Jean, Scott, Pat, Siebert, Arnaud, Silva, Antonio da, Silva, Manuel, Thébault, Philippe, Tomsick, John, Traub, Wesley, de Val-Borro, Miguel, Valluri, Monica, Walton, Nicholas A., Watkins, Laura L., White, Glenn, Wyrzykowski, Lukasz, Wyse, Rosemary, Yamada, Yoshiyuki, Malbet, Fabien, Boehm, Céline, Krone-Martins, Alberto, Amorim, Antonio, Anglada-Escudé, Guillem, Brandeker, Alexis, Courbin, Frédéric, Enßlin, Torsten, Falcão, Antonio, Freese, Katherine, Holl, Berry, Labadie, Lucas, Léger, Alain, Mamon, Gary A., McArthur, Barbara, Mora, Alcione, Shao, Mike, Sozzetti, Alessandro, Spolyar, Douglas, Villaver, Eva, Abbas, Ummi, Albertus, Conrado, Alves, João, Barnes, Rory, Bonomo, Aldo Stefano, Bouy, Hervé, Brown, Warren R., Cardoso, Vitor, Castellani, Marco, Chemin, Laurent, Clark, Hamish, Correia, Alexandre C. M., Crosta, Mariateresa, Crouzier, Antoine, Damasso, Mario, Darling, Jeremy, Davies, Melvyn B., Diaferio, Antonaldo, Fortin, Morgane, Fridlund, Malcolm, Gai, Mario, Garcia, Paulo, Gnedin, Oleg, Goobar, Ariel, Gordo, Paulo, Goullioud, Renaud, Hall, David, Hambly, Nigel, Harrison, Diana, Hobbs, David, Holland, Andrew, Høg, Erik, Jordi, Carme, Klioner, Sergei, Lançon, Ariane, Laskar, Jacques, Lattanzi, Mario, Le Poncin-Lafitte, Christophe, Luri, Xavier, Michalik, Daniel, de Almeida, André Moitinho, Mourão, Ana, Moustakas, Leonidas, Murray, Neil J., Muterspaugh, Matthew, Oertel, Micaela, Ostorero, Luisa, Portell, Jordi, Prost, Jean-Pierre, Quirrenbach, Andreas, Schneider, Jean, Scott, Pat, Siebert, Arnaud, Silva, Antonio da, Silva, Manuel, Thébault, Philippe, Tomsick, John, Traub, Wesley, de Val-Borro, Miguel, Valluri, Monica, Walton, Nicholas A., Watkins, Laura L., White, Glenn, Wyrzykowski, Lukasz, Wyse, Rosemary, and Yamada, Yoshiyuki

Abstract

Sky survey telescopes and powerful targeted telescopes play complementary roles in astronomy. In order to investigate the nature and characteristics of the motions of very faint objects, a flexibly-pointed instrument capable of high astrometric accuracy is an ideal complement to current astrometric surveys and a unique tool for precision astrophysics. Such a space-based mission will push the frontier of precision astrometry from evidence of Earth-mass habitable worlds around the nearest stars, to distant Milky Way objects, and out to the Local Group of galaxies. As we enter the era of the James Webb Space Telescope and the new ground-based, adaptive-optics-enabled giant telescopes, by obtaining these high precision measurements on key objects that Gaia could not reach, a mission that focuses on high precision astrometry science can consolidate our theoretical understanding of the local Universe, enable extrapolation of physical processes to remote redshifts, and derive a much more consistent picture of cosmological evolution and the likely fate of our cosmos. Already several missions have been proposed to address the science case of faint objects in motion using high precision astrometry missions: NEAT proposed for the ESA M3 opportunity, micro-NEAT for the S1 opportunity, and Theia for the M4 and M5 opportunities. Additional new mission configurations adapted with technological innovations could be envisioned to pursue accurate measurements of these extremely small motions. The goal of this White Paper is to address the fundamental science questions that are at stake when we focus on the motions of faint sky objects and to briefly review instrumentation and mission profiles.

37. Where Is It?

Author

Clark, Hamish

Subjects
LANDSCAPES, WATERCOLOR painting
Abstract

A quiz about a watercolour painting of a natural scenery by Drummond Fish is presented.

Published
2015

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