Your search keyword '"Coates, AJ"' showing total 63 results

1. Mechanisms of Saturn's Near-Noon Transient Aurora: In Situ Evidence From Cassini Measurements

Author

Yao, ZH, Radioti, A, Rae, IJ, Liu, J, Grodent, D, Ray, LC, Badman, SV, Coates, AJ, Gerard, J-C, Waite, JH, Yates, JN, Shi, QQ, Wei, Y, Bonfond, B, Dougherty, MK, Roussos, E, Sergis, N, and Palmaerts, B

Subjects

Science & Technology, PI2 PULSATIONS, PLASMA SHEET, MAGNETOPAUSE, Geology, HUBBLE-SPACE-TELESCOPE, STATISTICAL-ANALYSIS, BURSTY BULK FLOWS, SUBSTORM ONSET, MAGNETOSPHERE, Physical Sciences, RECONNECTION, MD Multidisciplinary, ALFVEN WAVES, Meteorology & Atmospheric Sciences, Geosciences, Multidisciplinary

Abstract

Although auroral emissions at giant planets have been observed for decades, the physical mechanisms of aurorae at giant planets remain unclear. One key reason is the lack of simultaneous measurements in the magnetosphere while remote sensing of the aurora. We report a dynamic auroral event identified with the Cassini Ultraviolet Imaging Spectrograph (UVIS) at Saturn on 13 July 2008 with coordinated measurements of the magnetic field and plasma in the magnetosphere. The auroral intensification was transient, only lasting for ∼30 min. The magnetic field and plasma are perturbed during the auroral intensification period. We suggest that this intensification was caused by wave mode conversion generated field-aligned currents, and we propose two potential mechanisms for the generation of this plasma wave and the transient auroral intensification. A survey of the Cassini UVIS database reveals that this type of transient auroral intensification is very common (10/11 time sequences, and ∼10% of the total images).

Published

2017

2. Saturn's quasiperiodic magnetohydrodynamic waves

Author

Yates, JN, Southwood, DJ, Dougherty, MK, Sulaiman, AH, Masters, A, Cowley, SWH, Kivelson, MG, Chen, CHK, Provan, G, Mitchell, DG, Hospodarsky, GB, Achilleos, N, Sorba, AM, Coates, AJ, Science and Technology Facilities Council (STFC), The Royal Society, and Science and Technology Facilities Council

Subjects

PULSATIONS, Science & Technology, RADIO, Geology, FIELD-ALIGNED CURRENTS, Physics::Geophysics, HYDROMAGNETIC-WAVES, MAGNETOSPHERE, Physical Sciences, MD Multidisciplinary, Physics::Space Physics, Meteorology & Atmospheric Sciences, cps, Geosciences, Multidisciplinary, ULF WAVES

Abstract

Quasi-periodic ∼1-hour fluctuations have been recently reported by numerous instruments on-board the Cassini spacecraft. The interpretation of the sources of these fluctuations has remained elusive to date. Here we provide an explanation for the origin of these fluctuations using magnetometer observations. We find that magnetic field fluctuations at high northern latitudes are Alfvénic, with small amplitudes (∼0.4 nT), and are concentrated in wave-packets similar to those observed in Kleindienst et al. [2009]. The wave-packets recur periodically at the northern magnetic oscillation period. We use a magnetospheric box model to provide an interpretation of the wave periods. Our model results suggest that the observed magnetic fluctuations are second harmonic Alfvén waves standing between the northern and southern ionospheres in Saturn’s outer magnetosphere

Published

2016

3. Access of energetic particles to Titan's exobase: a study of Cassini's T9 flyby

Author

Regoli, LH, Roussos, E, Feyerabend, M, Jones, GH, Krupp, N, Coates, AJ, Simon, S, Motschmann, U, Dougherty, MK, Science and Technology Facilities Council (STFC), The Royal Society, and Science and Technology Facilities Council

Subjects

Science & Technology, IONOSPHERE, ENCOUNTER, Precipitation, UPPER-ATMOSPHERE, Astronomy & Astrophysics, Exobase, 0201 Astronomical And Space Sciences, Tracing software, Hybrid code, MASS-SPECTROMETER, MAGNETOSPHERE, Physical Sciences, SIMULATION, Physics::Space Physics, Energy deposition, cps, Titan

Abstract

We study how the local electromagnetic disturbances introduced by Titan affect the ionization rates of the atmosphere. For this, we model the precipitation of energetic particles, specifically hydrogen and oxygen ions with energies between 1 keV and 1 MeV, into Titan's exobase for the specific magnetospheric configuration of the T9 flyby. For the study, a particle tracing software package is used which consists of an integration of the single particle Lorentz force equation using a 4th order Runge-Kutta numerical method. For the electromagnetic disturbances, the output of the A.I.K.E.F. hybrid code (kinetic ions, fluid electrons) is used, allowing the possibility of analyzing the disturbances and asymmetries in the access of energetic particles originated by their large gyroradii. By combining these methods, 2D maps showing the access of each set of particles were produced. We show that the access of different particles is largely dominated by their gyroradii, with the complexity of the maps increasing with decreasing gyroradius, due to the larger effect that local disturbances introduced by the presence of the moon have in the trajectory of the particles with lower energies. We also show that for particles with gyroradii much larger than the moon's radius, simpler descriptions of the electromagnetic environment can reproduce similar results to those obtained when using the full hybrid simulation description, with simple north-south fields being sufficient to reproduce the hybrid code results for O+ ions with energies larger than 10 keV but not enough to reproduce those for H+H+ ions at any of the energies covered in the present study. Finally, by combining the maps created with upstream plasma flow measurements by the MIMI/CHEMS instrument, we are able to estimate normalized fluxes arriving at different selected positions of the moon's exobase. We then use these fluxes to calculate energy deposition and non-dissociative N2 ionization rates for precipitating O+O+ and H+H+ ions and find differences in the ion production rates of up to almost 80% at the selected positions. All these results combined show that the electromagnetic field disturbances present in the vicinity of Titan significantly affect the contribution of energetic ions to local ionization profiles.

Published

2016

4. Field-aligned currents in Saturn's northern nightside magnetosphere: Evidence for interhemispheric current flow associated with planetary period oscillations

Author

Hunt, GJ, Cowley, SWH, Provan, G, Bunce, EJ, Alexeev, II, Belenkaya, ES, Kalegaev, VV, Dougherty, MK, Coates, AJ, Science and Technology Facilities Council (STFC), The Royal Society, and Science and Technology Facilities Council

Subjects

AURORAL OVAL, Science & Technology, IONOSPHERE, MAGNETIC-FIELD, CURRENT SYSTEMS, PLASMA FLOWS, aurora, Astronomy & Astrophysics, periodicity, ROTATION PERIOD, PERTURBATIONS, Saturn, PERIODICITIES, DEPENDENCE, SOLAR-WIND, Physical Sciences, magnetosphere, field-aligned currents

Published

2015

5. Can magnetopause reconnection drive Saturn's magnetosphere?

Author

Masters, A, Fujimoto, M, Hasegawa, H, Russell, CT, Coates, AJ, and Dougherty, MK

Published

2014

6. Electron heating at Saturn's bow shock

Author

Masters, A, Schwartz, SJ, Henley, EM, Thomsen, MF, Zieger, B, Coates, AJ, Achilleos, N, Mitchell, J, Hansen, KC, and Dougherty, MK

Published

2011

7. Penetrators for in situ sub-surface investigations of Europa

Author

Gowen RA, Smith A, Fortes AD, Barber S, Brown P, Church P, Collinson G, Coates AJ, Collins G, Crawford IA, Dehant V, Chela-Flores J, Griffiths AD, Grindrod PM, Gurvits LI, Hagermann A, Hussmann H, Jaumann R, Jones AP, Joy KH, Karatekin O, Miljkovic K, and Pal

Subjects

sensor, microgavimeter, penetrators

Abstract

We present the scientific case for inclusion of penetrators into the Europan surface, and the candidate instruments which could significantly enhance the scientific return of the joint ESA/NASA Europa-Jupiter System Mission (EJSM). Moreover, a surface element would provide an exciting and inspirational mission highlight which would encourage public and political support for the mission. Whilst many of the EJSM science goals can be achieved from the proposed orbital platform, only surface elements can provide key exploration capabilities including direct chemical sampling and associated astrobiological material detection, and sensitive habitability determination. A targeted landing site of upwelled material could provide access to potential biological material originating from deep beneath the ice. Penetrators can also enable more capable geophysical investigations of Europa (and Ganymede) interior body structures, mineralogy, mechanical, magnetic, electrical and thermal properties. They would provide ground truth, not just for the orbital observations of Europa, but could also improve confidence of interpretation of observations of the other Jovian moons. Additionally, penetrators on both Europa and Ganymede, would allow valuable comparison of these worlds, and gather significant information relevant to future landed missions. The advocated low mass penetrators also offer a comparatively low cost method of achieving these important science goals. A payload of two penetrators is proposed to provide redundancy, and improve scientific return, including enhanced networked seismometer performance and diversity of sampled regions. We also describe the associated candidate instruments, penetrator system architecture, and technical challenges for such penetrators, and include their current status and future development plans.

Published

2011

8. Interim Report on the Power Law Index of Interplanetary Suprathermal Ion Spectra

Author

Matthew Hill, Hamilton, D. C., Leroux, Ja, Florinski, V., Zank, Gp, and Coates, Aj

Subjects

Physics, Solar wind, Atmosphere of Earth, Spectrometer, Saturn, Physics::Space Physics, Astrophysics::Earth and Planetary Astrophysics, Astrophysics, Alpha particle, Interplanetary spaceflight, Nucleon, Charged particle

Abstract

There is a continuing debate about the applicability of the theory presented by Fisk and Gloeckler (FG) regarding the formation of suprathermal ion tails in phase space density vs. velocity spectra; in the solar wind frame the FG theory predicts a power law index of‐5 (which is equivalent to a differential intensity vs. energy index of‐1.5). There has also been uncertainty and perhaps misunderstanding regarding the extent to which such spectra are actually observed; i.e., is there really a significant preference for the ‐5 index? Here we report the results of an interim technique we use to analyze ∼1–100 keV/nucleon interplanetary suprathermal H+, He+, and He++, spectra measured at the Cassini spacecraft by the Charge Energy Mass Spectrometer (CHEMS) instrument of the Magnetospheric Imaging Instrument (MIMI) suite during the cruise to Saturn. We analyzed 18 active periods and report a mean index in the solar wind frame of 4.9±0.4 for protons, 5.2±0.5 for He+, and 4.7±0.2 for alpha particles. MIMI/CHEMS of...

Published

2010

9. Science goals and mission concept for the future exploration of Titan and Enceladus

Author

Tobie, G., Teanby, N. A., Coustenis, A., Jaumann, R., Raulin, E., Schmidt, J., Carrasco, N., Coates, Aj., Cordier, D., De Kok, R., Geppert, Wolf D., Lebreton, J. -P, Lefevre, A., Livengood, T. A., Mandt, K. E., Mitri, G., Nimmo, F., Nixon, C. A., Norman, L., Pappalardo, R. T., Postberg, F., Rodriguez, S., SchuizeMakuch, D., Soderblom, J. M., Solomonidou, A., Stephan, K., Stofan, E. R., Turtle, E. P., Wagner, R. J., West, R. A., Westlake, J. H., Tobie, G., Teanby, N. A., Coustenis, A., Jaumann, R., Raulin, E., Schmidt, J., Carrasco, N., Coates, Aj., Cordier, D., De Kok, R., Geppert, Wolf D., Lebreton, J. -P, Lefevre, A., Livengood, T. A., Mandt, K. E., Mitri, G., Nimmo, F., Nixon, C. A., Norman, L., Pappalardo, R. T., Postberg, F., Rodriguez, S., SchuizeMakuch, D., Soderblom, J. M., Solomonidou, A., Stephan, K., Stofan, E. R., Turtle, E. P., Wagner, R. J., West, R. A., and Westlake, J. H.

Abstract

Saturn's moons, Titan and Enceladus, are two of the Solar System's most enigmatic bodies and are prime targets for future space exploration. Titan provides an analogue for many processes relevant to the Earth, more generally to outer Solar System bodies, and a growing host of newly discovered icy exoplanets. Processes represented include atmospheric dynamics, complex organic chemistry, meteorological cycles (with methane as a working fluid), astrobiology, surface liquids and lakes, geology, fluvial and aeolian erosion, and interactions with an external plasma environment. In addition, exploring Enceladus over multiple targeted flybys will give us a unique opportunity to further study the most active icy moon in our Solar System as revealed by Cassini and to analyse in situ its active plume with highly capable instrumentation addressing its complex chemistry and dynamics. Enceladus' plume likely represents the most accessible samples from an extra-terrestrial liquid water environment in the Solar system, which has far reaching implications for many areas of planetary and biological science. Titan with its massive atmosphere and Enceladus with its active plume are prime planetary objects in the Outer Solar System to perform in situ investigations. In the present paper, we describe the science goals and key measurements to be performed by a future exploration mission involving a Saturn-Titan orbiter and a Titan balloon, which was proposed to ESA in response to the call for definition of the science themes of the next Large-class mission in 2013. The mission scenario is built around three complementary science goals: (A) Titan as an Earth-like system; (B) Enceladus as an active cryovolcanic moon; and (C) Chemistry of Titan and Enceladus - clues for the origin of life. The proposed measurements would provide a step change in our understanding of planetary processes and evolution, with many orders of magnitude improvement in temporal, spatial, and chemical resolution over, AuthorCount:31

Published

2014

10. The Venus ionosphere in the northern polar region

Author

Wood, AG, Grande, M, Pryse, SE, Whittaker, IC, Coates, AJ, Shane, N, and ASPERA team

Subjects

Physics::Space Physics, Astrophysics::Earth and Planetary Astrophysics, Physics::Geophysics

Abstract

PLASLIFE is a computer simulation which assists in the interpretation of high latitude ionospheric observations and, in this study, is applied to the polar regions of Venus. The Venus Express spacecraft samples the high latitude ionosphere in the northern hemisphere of the planet. On 4 August 2008 it was inserted into a new orbit with pericentre located below 200 km close to 86° N. The ASPERA-4 instrument on the spacecraft records the first extended in situ data set of the plasma environment in this sector. The observed ionospheric ion and electron populations exhibit significant variation between orbits and, by compensating for the effects of solar zenith angle and altitude, the relative contributions of photoionisation and plasma transport can be investigated. These variations are discussed with respect to parameters including local time and solar flux. Comparisons are drawn with the terrestrial ionosphere.

Published

2009

11. Warping of Saturn's magnetospheric and magnetotail current sheets

Author

Arridge, CS, Khurana, KK, Russell, CT, Southwood, DJ, Achilleos, N, Dougherty, MK, Coates, AJ, and Leinweber, HK

Published

2008

12. Modelling the outer radiation belt as a complex system in a self-organised critical state

Author

UCL, Crosby, NB, Meredith, NP, Coates, AJ, Iles, RHA, UCL, Crosby, NB, Meredith, NP, Coates, AJ, and Iles, RHA

Abstract

The dynamic behaviour of the outer electron radiation belt makes this area of geo-space a candidate for the concept of self-organized criticality. It is shown here that frequency distributions of measured outer electron radiation belt data are well-represented by power-laws over two decades. Applying the concept of self-organized criticality to interpret the shape of the distributions suggests another approach to complement existing methods in the interpretation of how this complicated environment works. Furthermore sub-grouping the radiation belt count rate data as a function of spatial location or temporal interval (e.g. L-shell, magnetic local time, solar cycle,...) shows systematic trends in the value of the slope of the power-laws. It is shown that the inner part of the outer radiation belt is influenced in a similar manner to the outer part, but in a less profound way. Our results suggest that the entire outer radiation belt appears to be affected as the sum of its individual parts. This type of study also gives the probability of exceeding a given threshold value over a given time; limiting the size of "an event". The average values could then be compared with models used in spacecraft design.

Published

2005

13. Solar wind dynamic pressure and electric field as the main factors controlling Saturn's aurorae

Author

UCL, Crary, FJ, Clarke, JT., Dougherty, MK, Hanlon, PG, Hansen, KC, Steinberg, JT, Barraclough, BL, Coates, AJ, Gerard, JC., Grodent, D., Kurth, WS, Mitchell, DG, Rymer, AM, Young, DT, UCL, Crary, FJ, Clarke, JT., Dougherty, MK, Hanlon, PG, Hansen, KC, Steinberg, JT, Barraclough, BL, Coates, AJ, Gerard, JC., Grodent, D., Kurth, WS, Mitchell, DG, Rymer, AM, and Young, DT

Abstract

The interaction of the solar wind with Earth's magnetosphere gives rise to the bright polar aurorae and to geomagnetic storms(1), but the relation between the solar wind and the dynamics of the outer planets' magnetospheres is poorly understood. Jupiter's magnetospheric dynamics and aurorae are dominated by processes internal to the jovian system(2), whereas Saturn's magnetosphere has generally been considered to have both internal and solar-wind-driven processes. This hypothesis, however, is tentative because of limited simultaneous solar wind and magnetospheric measurements. Here we report solar wind measurements, immediately upstream of Saturn, over a one-month period. When combined with simultaneous ultraviolet imaging(3) we find that, unlike Jupiter, Saturn's aurorae respond strongly to solar wind conditions. But in contrast to Earth, the main controlling factor appears to be solar wind dynamic pressure and electric field, with the orientation of the interplanetary magnetic field playing a much more limited role. Saturn's magnetosphere is, therefore, strongly driven by the solar wind, but the solar wind conditions that drive it differ from those that drive the Earth's magnetosphere.

Published

2005

14. Titan's plasma environment during a magnetosheath excursion: Real-time scenarios for Cassini's T32 flyby from a hybrid simulation

Author

Simon, S., Motschmann, U., Kleindienst, G., Saur, J., Bertucci, Cl, Dougherty, Mk, Christopher Arridge, and Coates, Aj

15. Lunar science below the surface - the MoonLITE Low Cost Penetrator Mission

Author

Hagermann, Axel, Smith, Alan, Gowen, Rob, Coates, Aj, Crawford, Ai, Simon Sheridan, Simeon Barber, Pike, T., Gao, Y., Church, P., Wells, N., Phipps, A., Sims, M., and Talboys, D.

16. Peripheral chemosensitivity as a potential input to baroreflex impairment and autonomic imbalance in chronic heart failure

Author

Piotr Ponikowski, Chua, Tp, Piepoli, M., Ondusova, D., Harrington, D., Anker, Sd, Volterrani, M., Colombo, R., Mazzuero, G., Giordano, A., and Coates, Aj

17. Observations of a Solar Energetic Particle Event From Inside and Outside the Coma of Comet 67P.

Author

Wellbrock A, Jones GH, Dresing N, Coates AJ, Simon Wedlund C, Nilsson H, Sanchez-Cano B, Palmerio E, Turc L, Myllys M, Henri P, Goetz C, Witasse O, Nordheim TA, and Mandt K

Abstract

We analyze observations of a solar energetic particle (SEP) event at Rosetta's target comet 67P/Churyumov-Gerasimenko during 6-10 March 2015. The comet was 2.15 AU from the Sun, with the Rosetta spacecraft approximately 70 km from the nucleus placing it deep inside the comet's coma and allowing us to study its response. The Eastern flank of an interplanetary coronal mass ejection (ICME) also encountered Rosetta on 6 and 7 March. Rosetta Plasma Consortium data indicate increases in ionization rates, and cometary water group pickup ions exceeding 1 keV. Increased charge exchange reactions between solar wind ions and cometary neutrals also indicate increased upstream neutral populations consistent with enhanced SEP induced surface activity. In addition, the most intense parts of the event coincide with observations interpreted as an infant cometary bow shock, indicating that the SEPs may have enhanced the formation and/or intensified the observations. These solar transient events may also have pushed the cometopause closer to the nucleus. We track and discuss characteristics of the SEP event using remote observations by SOHO, WIND, and GOES at the Sun, in situ measurements at Solar Terrestrial Relations Observatory Ahead, Mars and Rosetta, and ENLIL modeling. Based on its relatively prolonged duration, gradual and anisotropic nature, and broad angular spread in the heliosphere, we determine the main particle acceleration source to be a distant ICME which emerged from the Sun on 6 March 2015 and was detected locally in the Martian ionosphere but was never encountered by 67P directly. The ICME's shock produced SEPs for several days which traveled to the in situ observation sites via magnetic field line connections., (©2022. The Authors.)

Published

2022

18. Author Correction: The loss of ions from Venus through the plasma wake.

Author

Barabash S, Fedorov A, Sauvaud JJ, Lundin R, Russell CT, Futaana Y, Zhang TL, Andersson H, Brinkfeldt K, Grigoriev A, Holmström M, Yamauchi M, Asamura K, Baumjohann W, Lammer H, Coates AJ, Kataria DO, Linder DR, Curtis CC, Hsieh KC, Sandel BR, Grande M, Gunell H, Koskinen HEJ, Kallio E, Riihelä P, Säles T, Schmidt W, Kozyra J, Krupp N, Fränz M, Woch J, Luhmann J, McKenna-Lawlor S, Mazelle C, Thocaven JJ, Orsini S, Cerulli-Irelli R, Mura A, Milillo A, Maggi M, Roelof E, Brandt P, Szego K, Winningham JD, Frahm RA, Scherrer J, Sharber JR, Wurz P, and Bochsler P

Published

2022

19. GAUSS - genesis of asteroids and evolution of the solar system: A sample return mission to Ceres.

Author

Shi X, Castillo-Rogez J, Hsieh H, Hui H, Ip WH, Lei H, Li JY, Tosi F, Zhou L, Agarwal J, Barucci A, Beck P, Bagatin AC, Capaccioni F, Coates AJ, Cremonese G, Duffard R, Grande M, Jaumann R, Jones GH, Kallio E, Lin Y, Mousis O, Nathues A, Oberst J, Sierks H, Ulamec S, and Wang M

Abstract

The goal of Project GAUSS (Genesis of Asteroids and evolUtion of the Solar System) is to return samples from the dwarf planet Ceres. Ceres is the most accessible candidate of ocean worlds and the largest reservoir of water in the inner Solar System. It shows active volcanism and hydrothermal activities in recent history. Recent evidence for the existence of a subsurface ocean on Ceres and the complex geochemistry suggest past habitability and even the potential for ongoing habitability. GAUSS will return samples from Ceres with the aim of answering the following top-level scientific questions: What is the origin of Ceres and what does this imply for the origin of water and other volatiles in the inner Solar System?What are the physical properties and internal structure of Ceres? What do they tell us about the evolutionary and aqueous alteration history of dwarf planets?What are the astrobiological implications of Ceres? Is it still habitable today?What are the mineralogical connections between Ceres and our current collections of carbonaceous meteorites?, (© The Author(s) 2021.)

Published

2022

20. The Mars 2020 Perseverance Rover Mast Camera Zoom (Mastcam-Z) Multispectral, Stereoscopic Imaging Investigation.

Author

Bell JF 3rd, Maki JN, Mehall GL, Ravine MA, Caplinger MA, Bailey ZJ, Brylow S, Schaffner JA, Kinch KM, Madsen MB, Winhold A, Hayes AG, Corlies P, Tate C, Barrington M, Cisneros E, Jensen E, Paris K, Crawford K, Rojas C, Mehall L, Joseph J, Proton JB, Cluff N, Deen RG, Betts B, Cloutis E, Coates AJ, Colaprete A, Edgett KS, Ehlmann BL, Fagents S, Grotzinger JP, Hardgrove C, Herkenhoff KE, Horgan B, Jaumann R, Johnson JR, Lemmon M, Paar G, Caballo-Perucha M, Gupta S, Traxler C, Preusker F, Rice MS, Robinson MS, Schmitz N, Sullivan R, and Wolff MJ

Abstract

Mastcam-Z is a multispectral, stereoscopic imaging investigation on the Mars 2020 mission's Perseverance rover. Mastcam-Z consists of a pair of focusable, 4:1 zoomable cameras that provide broadband red/green/blue and narrowband 400-1000 nm color imaging with fields of view from 25.6° × 19.2° (26 mm focal length at 283 μrad/pixel) to 6.2° × 4.6° (110 mm focal length at 67.4 μrad/pixel). The cameras can resolve (≥ 5 pixels) ∼0.7 mm features at 2 m and ∼3.3 cm features at 100 m distance. Mastcam-Z shares significant heritage with the Mastcam instruments on the Mars Science Laboratory Curiosity rover. Each Mastcam-Z camera consists of zoom, focus, and filter wheel mechanisms and a 1648 × 1214 pixel charge-coupled device detector and electronics. The two Mastcam-Z cameras are mounted with a 24.4 cm stereo baseline and 2.3° total toe-in on a camera plate ∼2 m above the surface on the rover's Remote Sensing Mast, which provides azimuth and elevation actuation. A separate digital electronics assembly inside the rover provides power, data processing and storage, and the interface to the rover computer. Primary and secondary Mastcam-Z calibration targets mounted on the rover top deck enable tactical reflectance calibration. Mastcam-Z multispectral, stereo, and panoramic images will be used to provide detailed morphology, topography, and geologic context along the rover's traverse; constrain mineralogic, photometric, and physical properties of surface materials; monitor and characterize atmospheric and astronomical phenomena; and document the rover's sample extraction and caching locations. Mastcam-Z images will also provide key engineering information to support sample selection and other rover driving and tool/instrument operations decisions., Competing Interests: Conflicts of interest/Competing interestsThe authors declare that they have no conflict of interest., (© The Author(s) 2020.)

Published

2021

21. A transient enhancement of Mercury's exosphere at extremely high altitudes inferred from pickup ions.

Author

Jasinski JM, Regoli LH, Cassidy TA, Dewey RM, Raines JM, Slavin JA, Coates AJ, Gershman DJ, Nordheim TA, and Murphy N

Abstract

Mercury has a global dayside exosphere, with measured densities of 10 -2  cm -3 at ~1500 km. Here we report on the inferred enhancement of neutral densities (<10 2  cm -3 ) at high altitudes (~5300 km) by the MESSENGER spacecraft. Such high-altitude densities cannot be accounted for by the typical exosphere. This event was observed by the Fast-Imaging Plasma Spectrometer (FIPS), which detected heavy ions of planetary origin that were recently ionized, and "picked up" by the solar wind. We estimate that the neutral density required to produce the observed pickup ion fluxes is similar to typical exospheric densities found at ~700 km altitudes. We suggest that this event was most likely caused by a meteroid impact. Understanding meteoroid impacts is critical to understanding the source processes of the exosphere at Mercury, and the use of plasma spectrometers will be crucial for future observations with the Bepi-Colombo mission.

Published

2020

22. Seeing Through the "Science Eyes" of the ExoMars Rover.

Author

Miles HC, Gunn MD, Coates AJ, and Potel M

Subjects

Calibration, Remote Sensing Technology, Mars, Photography instrumentation, Science, Space Flight

Abstract

The ExoMars rover, due to launch in mid 2020, will travel to Mars in search of signs of past or present habitability. The rover will carry the Panoramic Camera, PanCam, a scientific camera system designed to provide crucial remote sensing capabilities as mission scientists search for targets of interest. In preparation for the mission operations, the visual output of PanCam has been simulated and modeled with a three-dimensional rendering system, allowing the team to investigate the capabilities of the camera system and providing insight into how it may be calibrated and used for engineering tasks during the surface mission.

Published

2020

23. The Largest Electron Differential Energy Flux Observed at Mars by the Mars Express Spacecraft, 2004-2016.

Author

Frahm RA, Winningham JD, Coates AJ, Gérard JC, Holmström M, and Barabash S

Abstract

The goal of this paper is to understand the processes by which solar wind electrons are energized in the Martian magnetosphere and how this compares to processes at Venus and Earth. Each is unique in the source of its magnetic field topology and how this influences electron energization. To achieve this goal, 24 million spectra spanning 13 years have been examined using the electron spectrometer from the Mars Express spacecraft between about 12,000 km and about 250 km altitude, and from all latitudes and local times. The top 10 largest differential energy flux at energies above the differential energy flux peak have been found: seven spectra from the magnetosheath near noon, three from the dark tail (the largest two from the middle and ionospheric edge of the magnetosheath). Spectral comparisons show a decade range in the peak of the electron distributions; however, all distributions show a similar energy maximum dictated by solar wind/planet interaction. Similarly derived, the largest Venus spectrum occurred near the magnetosheath bow shock and had the same shape as the most intense Mars inner magnetosheath spectrum. The Mars and Venus dayside spectra compared to the Mars nightside spectrum that included an enhanced optical signal attributed to discrete "auroral" precipitation show a similar shape. These spectra are also compared to a selected auroral zone electron spectra from the Earth. The Mars and Venus results suggest that there is no more energy needed to generate electrons forming the nightside precipitation than is gained during the solar wind/planet interaction.

Published

2018

24. Hybrid Simulations of Positively and Negatively Charged Pickup Ions and Cyclotron Wave Generation at Europa.

Author

Desai RT, Cowee MM, Wei H, Fu X, Gary SP, Volwerk M, and Coates AJ

Abstract

In the vicinity of Europa, Galileo observed bursty Alfvén-cyclotron wave power at the gyrofrequencies of a number of species including K + , O 2+, Na + , and Cl + , indicating the localized pickup of these species. Additional evidence for the presence of chlorine was the occurrence of both left-hand (LH) and right-hand (RH) polarized transverse wave power near the Cl + gyrofrequency, thought to be due to the pickup of both Cl + and the easily formed chlorine anion, Cl - . To test this hypothesis, we use one-dimensional hybrid (kinetic ion, massless fluid electron) simulations for both positive and negative pickup ions and self-consistently reproduce the growth of both LH and RH Alfvén-cyclotron waves in agreement with linear theory. We show how the simultaneous generation of LH and RH waves can result in nongyrotropic ion distributions and increased wave amplitudes, and how even trace quantities of negative pickup ions are able to generate an observable RH signal. Through comparing simulated and observed wave amplitudes, we are able to place the first constraints on the densities of Chlorine pickup ions in localized regions at Europa.

Published

2017

25. Habitability on Early Mars and the Search for Biosignatures with the ExoMars Rover.

Author

Vago JL, Westall F, Coates AJ, Jaumann R, Korablev O, Ciarletti V, Mitrofanov I, Josset JL, De Sanctis MC, Bibring JP, Rull F, Goesmann F, Steininger H, Goetz W, Brinckerhoff W, Szopa C, Raulin F, Westall F, Edwards HGM, Whyte LG, Fairén AG, Bibring JP, Bridges J, Hauber E, Ori GG, Werner S, Loizeau D, Kuzmin RO, Williams RME, Flahaut J, Forget F, Vago JL, Rodionov D, Korablev O, Svedhem H, Sefton-Nash E, Kminek G, Lorenzoni L, Joudrier L, Mikhailov V, Zashchirinskiy A, Alexashkin S, Calantropio F, Merlo A, Poulakis P, Witasse O, Bayle O, Bayón S, Meierhenrich U, Carter J, García-Ruiz JM, Baglioni P, Haldemann A, Ball AJ, Debus A, Lindner R, Haessig F, Monteiro D, Trautner R, Voland C, Rebeyre P, Goulty D, Didot F, Durrant S, Zekri E, Koschny D, Toni A, Visentin G, Zwick M, van Winnendael M, Azkarate M, and Carreau C

Abstract

The second ExoMars mission will be launched in 2020 to target an ancient location interpreted to have strong potential for past habitability and for preserving physical and chemical biosignatures (as well as abiotic/prebiotic organics). The mission will deliver a lander with instruments for atmospheric and geophysical investigations and a rover tasked with searching for signs of extinct life. The ExoMars rover will be equipped with a drill to collect material from outcrops and at depth down to 2 m. This subsurface sampling capability will provide the best chance yet to gain access to chemical biosignatures. Using the powerful Pasteur payload instruments, the ExoMars science team will conduct a holistic search for traces of life and seek corroborating geological context information. Key Words: Biosignatures-ExoMars-Landing sites-Mars rover-Search for life. Astrobiology 17, 471-510., Competing Interests: No competing financial interests exist.

Published

2017

26. Ion and aerosol precursor densities in Titan's ionosphere: A multi-instrument case study.

Author

Shebanits O, Wahlund JE, Edberg NJT, Crary FJ, Wellbrock A, Andrews DJ, Vigren E, Desai RT, Coates AJ, Mandt KE, and Waite JH Jr

Abstract

The importance of the heavy ions and dust grains for the chemistry and aerosol formation in Titan's ionosphere has been well established in the recent years of the Cassini mission. In this study we combine independent in situ plasma (Radio Plasma and Wave Science Langmuir Probe (RPWS/LP)) and particle (Cassini Plasma Science Electron Spectrometer, Cassini Plasma Science Ion Beam Spectrometer, and Ion and Neutral Mass Spectrometer) measurements of Titan's ionosphere for selected flybys (T16, T29, T40, and T56) to produce altitude profiles of mean ion masses including heavy ions and develop a Titan-specific method for detailed analysis of the RPWS/LP measurements (applicable to all flybys) to further constrain ion charge densities and produce the first empirical estimate of the average charge of negative ions and/or dust grains. Our results reveal the presence of an ion-ion (dusty) plasma below ~1100 km altitude, with charge densities exceeding the primary ionization peak densities by a factor ≥2 in the terminator and nightside ionosphere ( n e / n i ≤ 0.1). We suggest that ion-ion (dusty) plasma may also be present in the dayside ionosphere below 900 km ( n e / n i < 0.5 at 1000 km altitude). The average charge of the dust grains (≥1000 amu) is estimated to be between -2.5 and -1.5 elementary charges, increasing toward lower altitudes.

Published

2016

27. ASTRONOMY. Connecting the dots in magnetic reconnection.

Author

Coates AJ

Published

2016

28. The impact of an ICME on the Jovian X-ray aurora.

Author

Dunn WR, Branduardi-Raymont G, Elsner RF, Vogt MF, Lamy L, Ford PG, Coates AJ, Gladstone GR, Jackman CM, Nichols JD, Rae IJ, Varsani A, Kimura T, Hansen KC, and Jasinski JM

Abstract

We report the first Jupiter X-ray observations planned to coincide with an interplanetary coronal mass ejection (ICME). At the predicted ICME arrival time, we observed a factor of ∼8 enhancement in Jupiter's X-ray aurora. Within 1.5 h of this enhancement, intense bursts of non-Io decametric radio emission occurred. Spatial, spectral, and temporal characteristics also varied between ICME arrival and another X-ray observation two days later. Gladstone et al. (2002) discovered the polar X-ray hot spot and found it pulsed with 45 min quasiperiodicity. During the ICME arrival, the hot spot expanded and exhibited two periods: 26 min periodicity from sulfur ions and 12 min periodicity from a mixture of carbon/sulfur and oxygen ions. After the ICME, the dominant period became 42 min. By comparing Vogt et al. (2011) Jovian mapping models with spectral analysis, we found that during ICME arrival at least two distinct ion populations, from Jupiter's dayside, produced the X-ray aurora. Auroras mapping to magnetospheric field lines between 50 and 70  R J were dominated by emission from precipitating sulfur ions (S 7+,…,14+ ). Emissions mapping to closed field lines between 70 and 120  R J and to open field lines were generated by a mixture of precipitating oxygen (O 7+,8+ ) and sulfur/carbon ions, possibly implying some solar wind precipitation. We suggest that the best explanation for the X-ray hot spot is pulsed dayside reconnection perturbing magnetospheric downward currents, as proposed by Bunce et al. (2004). The auroral enhancement has different spectral, spatial, and temporal characteristics to the hot spot. By analyzing these characteristics and coincident radio emissions, we propose that the enhancement is driven directly by the ICME through Jovian magnetosphere compression and/or a large-scale dayside reconnection event.

Published

2016

29. Cassini observations of ionospheric plasma in Saturn's magnetotail lobes.

Author

Felici M, Arridge CS, Coates AJ, Badman SV, Dougherty MK, Jackman CM, Kurth WS, Melin H, Mitchell DG, Reisenfeld DB, and Sergis N

Abstract

Studies of Saturn's magnetosphere with the Cassini mission have established the importance of Enceladus as the dominant mass source for Saturn's magnetosphere. It is well known that the ionosphere is an important mass source at Earth during periods of intense geomagnetic activity, but lesser attention has been dedicated to study the ionospheric mass source at Saturn. In this paper we describe a case study of data from Saturn's magnetotail, when Cassini was located at ≃ 2200 h Saturn local time at 36  R S from Saturn. During several entries into the magnetotail lobe, tailward flowing cold electrons and a cold ion beam were observed directly adjacent to the plasma sheet and extending deeper into the lobe. The electrons and ions appear to be dispersed, dropping to lower energies with time. The composition of both the plasma sheet and lobe ions show very low fluxes (sometimes zero within measurement error) of water group ions. The magnetic field has a swept-forward configuration which is atypical for this region, and the total magnetic field strength is larger than expected at this distance from the planet. Ultraviolet auroral observations show a dawn brightening, and upstream heliospheric models suggest that the magnetosphere is being compressed by a region of high solar wind ram pressure. We interpret this event as the observation of ionospheric outflow in Saturn's magnetotail. We estimate a number flux between (2.95 ± 0.43) × 10 9 and (1.43 ± 0.21) × 10 10  cm -2  s -1 , 1 or about 2 orders of magnitude larger than suggested by steady state MHD models, with a mass source between 1.4 ×10 2 and 1.1 ×10 3  kg/s. After considering several configurations for the active atmospheric regions, we consider as most probable the main auroral oval, with associated mass source between 49.7 ±13.4 and 239.8 ±64.8 kg/s for an average auroral oval, and 10 ±4 and 49 ±23 kg/s for the specific auroral oval morphology found during this event. It is not clear how much of this mass is trapped within the magnetosphere and how much is lost to the solar wind.

Published

2016

30. Asymmetries observed in Saturn's magnetopause geometry.

Author

Pilkington NM, Achilleos N, Arridge CS, Guio P, Masters A, Ray LC, Sergis N, Thomsen MF, Coates AJ, and Dougherty MK

Abstract

For over 10 years, the Cassini spacecraft has patrolled Saturn's magnetosphere and observed its magnetopause boundary over a wide range of prevailing solar wind and interior plasma conditions. We now have data that enable us to resolve a significant dawn-dusk asymmetry and find that the magnetosphere extends farther from the planet on the dawnside of the planet by 7 ± 1%. In addition, an opposing dawn-dusk asymmetry in the suprathermal plasma pressure adjacent to the magnetopause has been observed. This probably acts to reduce the size asymmetry and may explain the discrepancy between the degree of asymmetry found here and a similar asymmetry found by Kivelson and Jia (2014) using MHD simulations. Finally, these observations sample a wide range of season, allowing the "intrinsic" polar flattening (14 ± 1%) caused by the magnetodisc to be separated from the seasonally induced north-south asymmetry in the magnetopause shape found theoretically (5 ± 1% when the planet's magnetic dipole is tilted away from the Sun by 10-17°).

Published

2015

31. Internally driven large-scale changes in the size of Saturn's magnetosphere.

Author

Pilkington NM, Achilleos N, Arridge CS, Guio P, Masters A, Ray LC, Sergis N, Thomsen MF, Coates AJ, and Dougherty MK

Abstract

Saturn's magnetic field acts as an obstacle to solar wind flow, deflecting plasma around the planet and forming a cavity known as the magnetosphere. The magnetopause defines the boundary between the planetary and solar dominated regimes, and so is strongly influenced by the variable nature of pressure sources both outside and within. Following from Pilkington et al. (2014), crossings of the magnetopause are identified using 7 years of magnetic field and particle data from the Cassini spacecraft and providing unprecedented spatial coverage of the magnetopause boundary. These observations reveal a dynamical interaction where, in addition to the external influence of the solar wind dynamic pressure, internal drivers, and hot plasma dynamics in particular can take almost complete control of the system's dayside shape and size, essentially defying the solar wind conditions. The magnetopause can move by up to 10-15 planetary radii at constant solar wind dynamic pressure, corresponding to relatively "plasma-loaded" or "plasma-depleted" states, defined in terms of the internal suprathermal plasma pressure.

Published

2015

32. A new upper limit to the field-aligned potential near Titan.

Author

Coates AJ, Wellbrock A, Waite JH, and Jones GH

Abstract

Neutral particles dominate regions of the Saturn magnetosphere and locations near several of Saturn's moons. Sunlight ionizes neutrals, producing photoelectrons with characteristic energy spectra. The Cassini plasma spectrometer electron spectrometer has detected photoelectrons throughout these regions, where photoelectrons may be used as tracers of magnetic field morphology. They also enhance plasma escape by setting up an ambipolar electric field, since the relatively energetic electrons move easily along the magnetic field. A similar mechanism is seen in the Earth's polar wind and at Mars and Venus. Here we present a new analysis of Titan photoelectron data, comparing spectra measured in the sunlit ionosphere at ~1.4 Titan radii ( R T ) and at up to 6.8 R T away. This results in an upper limit on the potential of 2.95 V along magnetic field lines associated with Titan at up to 6.8 R T , which is comparable to some similar estimates for photoelectrons seen in Earth's magnetosphere.

Published

2015

33. Detection of a strongly negative surface potential at Saturn's moon Hyperion.

Author

Nordheim TA, Jones GH, Roussos E, Leisner JS, Coates AJ, Kurth WS, Khurana KK, Krupp N, Dougherty MK, and Waite JH

Abstract

On 26 September 2005, Cassini conducted its only close targeted flyby of Saturn's small, irregularly shaped moon Hyperion. Approximately 6 min before the closest approach, the electron spectrometer (ELS), part of the Cassini Plasma Spectrometer (CAPS) detected a field-aligned electron population originating from the direction of the moon's surface. Plasma wave activity detected by the Radio and Plasma Wave instrument suggests electron beam activity. A dropout in energetic electrons was observed by both CAPS-ELS and the Magnetospheric Imaging Instrument Low-Energy Magnetospheric Measurement System, indicating that the moon and the spacecraft were magnetically connected when the field-aligned electron population was observed. We show that this constitutes a remote detection of a strongly negative (∼ -200 V) surface potential on Hyperion, consistent with the predicted surface potential in regions near the solar terminator.

Published

2014

34. Product analysis and initial reliability testing of the total mesorectal excision-quality assessment instrument.

Author

Simunovic MR, DeNardi FG, Coates AJ, Szalay DA, and Eva KW

Subjects

Humans, Prognosis, Rectal Neoplasms pathology, Reproducibility of Results, Digestive System Surgical Procedures standards, Pathology, Clinical standards, Practice Guidelines as Topic standards, Quality Indicators, Health Care standards, Rectal Neoplasms surgery

Abstract

Background: Product analysis of rectal cancer resection specimens before specimen fixation may provide an immediate and relevant evaluation of surgical performance. We tested the interrater reliability (IRR) of a product analysis tool called the Total Mesorectal Excision-Quality Assessment Instrument (TME-QA)., Methods: Participants included two gold standard raters, five pathology assistants, and eight pathologists. Domains of the TME-QA reflect total mesorectal excision principles including: (1) completeness of mesorectal margin; (2) completeness of mesorectum; (3) coning of distal mesorectum; (4) physical defects; and (5) overall specimen quality. Specimens were scored independently. We used the generalizability theory to assess the tool's internal consistency and IRR., Results: There were 39 specimens and 120 ratings. Mean overall specimen quality scores for the gold standard raters, pathologists, and assistants were 4.43, 4.43, and 4.50, respectively (p > 0.85). IRR for the first nine items was 0.68 for the full sample, 0.62 for assistants alone, 0.63 for pathologists alone, and 0.74 for gold standard raters alone. IRR for the item overall specimen quality was 0.67 for the full sample, 0.45 for assistants, 0.80 for pathologists, and 0.86 for gold standard raters. IRR increased for all groups when scores were averaged across two raters., Conclusions: Assessment of surgical specimens using the TME-QA may provide rapid and relevant feedback to surgeons about their technical performance. Our results show good internal consistency and IRR when the TME-QA is used by pathologists. However, for pathology assistants, multiple ratings with the averaging of scores may be needed.

Published

2014

35. Cusp observation at Saturn's high-latitude magnetosphere by the Cassini spacecraft.

Author

Jasinski JM, Arridge CS, Lamy L, Leisner JS, Thomsen MF, Mitchell DG, Coates AJ, Radioti A, Jones GH, Roussos E, Krupp N, Grodent D, Dougherty MK, and Waite JH

Abstract

We report on the first analysis of magnetospheric cusp observations at Saturn by multiple in situ instruments onboard the Cassini spacecraft. Using this we infer the process of reconnection was occurring at Saturn's magnetopause. This agrees with remote observations that showed the associated auroral signatures of reconnection. Cassini crossed the northern cusp around noon local time along a poleward trajectory. The spacecraft observed ion energy-latitude dispersions-a characteristic signature of the terrestrial cusp. This ion dispersion is "stepped," which shows that the reconnection is pulsed. The ion energy-pitch angle dispersions suggest that the field-aligned distance from the cusp to the reconnection site varies between ∼27 and 51 R S . An intensification of lower frequencies of the Saturn kilometric radiation emissions suggests the prior arrival of a solar wind shock front, compressing the magnetosphere and providing more favorable conditions for magnetopause reconnection., Key Points: We observe evidence for reconnection in the cusp plasma at SaturnWe present evidence that the reconnection process can be pulsed at SaturnSaturn's cusp shows similar characteristics to the terrestrial cusp.

Published

2014

36. Aerosol growth in Titan's ionosphere.

Author

Lavvas P, Yelle RV, Koskinen T, Bazin A, Vuitton V, Vigren E, Galand M, Wellbrock A, Coates AJ, Wahlund JE, Crary FJ, and Snowden D

Abstract

Photochemically produced aerosols are common among the atmospheres of our solar system and beyond. Observations and models have shown that photochemical aerosols have direct consequences on atmospheric properties as well as important astrobiological ramifications, but the mechanisms involved in their formation remain unclear. Here we show that the formation of aerosols in Titan's upper atmosphere is directly related to ion processes, and we provide a complete interpretation of observed mass spectra by the Cassini instruments from small to large masses. Because all planetary atmospheres possess ionospheres, we anticipate that the mechanisms identified here will be efficient in other environments as well, modulated by the chemical complexity of each atmosphere.

Published

2013

37. Magnetic reconnection in the near Venusian magnetotail.

Author

Zhang TL, Lu QM, Baumjohann W, Russell CT, Fedorov A, Barabash S, Coates AJ, Du AM, Cao JB, Nakamura R, Teh WL, Wang RS, Dou XK, Wang S, Glassmeier KH, Auster HU, and Balikhin M

Abstract

Observations with the Venus Express magnetometer and low-energy particle detector revealed magnetic field and plasma behavior in the near-Venus wake that is symptomatic of magnetic reconnection, a process that occurs in Earth's magnetotail but is not expected in the magnetotail of a nonmagnetized planet such as Venus. On 15 May 2006, the plasma flow in this region was toward the planet, and the magnetic field component transverse to the flow was reversed. Magnetic reconnection is a plasma process that changes the topology of the magnetic field and results in energy exchange between the magnetic field and the plasma. Thus, the energetics of the Venus magnetotail resembles that of the terrestrial tail, where energy is stored and later released from the magnetic field to the plasma.

Published

2012

38. Anterior-entry abdominoperineal resection: a variation in the method of perineal dissection.

Author

Simunovic M, Pinthus J, Coates AJ, and DeNardi F

Subjects

Aged, Aged, 80 and over, Digestive System Surgical Procedures, Dissection methods, Female, Humans, Male, Middle Aged, Pelvis surgery, Rectal Neoplasms pathology, Abdominal Wall surgery, Perineum surgery, Rectal Neoplasms surgery

Abstract

Background: For patients with rectal cancer, there is a greater risk of a positive radial margin or local tumor recurrence when an abdominoperineal versus low anterior resection is performed, or when tumors are in an anterior versus nonanterior location. In response, clinical leaders have encouraged perineal dissection in the prone position or in concert with a coccygectomy. We describe anterior-entry abdominoperineal resection, which may minimize the need for such maneuvers and negative patient outcomes., Methods: Anterior-entry abdominoperineal resection was provided by one surgeon to 10 patients over an 18-month period. Pelvic dissection used total mesorectal excision techniques. Anteriorly, in men, the perineal dissection occurred between the external anal sphincter and the bulbospongiosus and transversus perinei superficialis muscles. Initial entry into the pelvis occurred anteriorly under direct vision. Rectal specimen quality was graded out of 5 using Quirke methods., Results: There were 8 male and 2 female subjects with a median age of 65 years. Eight of 10 tumors had some component of an anterior location. Seven patients received preoperative radiation. The radial margin was positive in 1 case. Median Quirke score for quality of the surgical specimen was 5 of 5., Conclusions: Anterior-entry abdominoperineal resection follows anatomic planes in the perineum and demands initial entry into the pelvis anteriorly and under direct vision. It may minimize rates of positive radial margins, may be especially suited for tumors with a locally advanced anterior component, and in many patients may avoid the need for perineal dissection in the jackknife position.

Published

2012

39. Outcomes following a limited approach to radiotherapy in rectal cancer.

Author

Simunovic M, Jacob S, Coates AJ, Vogt K, Moran BJ, and Heald RJ

Subjects

Adenocarcinoma surgery, Aged, Digital Rectal Examination, Female, Humans, Male, Middle Aged, Neoplasm Recurrence, Local etiology, Pelvic Neoplasms etiology, Radiotherapy, Adjuvant methods, Rectal Neoplasms surgery, Tomography, X-Ray Computed, Treatment Outcome, Adenocarcinoma radiotherapy, Rectal Neoplasms radiotherapy

Abstract

Background: Variation in the use of neoadjuvant and adjuvant radiotherapy for rectal cancer suggests an opportunity to avoid it in all but patients at highest risk of local recurrence., Methods: Between 1 July 1999 and 1 February 2006, patients with primary rectal cancer were treated by a single surgeon operating at McMaster University, Hamilton, Ontario, Canada. Digital rectal examination and pelvic computed tomography were used to determine whether the mesorectal margin was threatened by tumour and thus whether preoperative radiotherapy would be needed. The study outcome was local tumour recurrence., Results: Forty-six (48 per cent) of 96 patients received preoperative radiation therapy. The median follow-up was 4·2 years. Tumours were fixed or tethered in 31 (67 per cent) of the 46 irradiated patients. In contrast, no tumour was fixed in unirradiated patients and only ten (20 per cent) of the 50 tumours were tethered. The proportion of patients with stage I or II tumours based on final pathology was similar: 61 per cent (28 of 46) and 56 per cent (28 of 50) in irradiated and unirradiated groups respectively (P = 0·287). There were four (9 per cent) and two (4 per cent) local recurrences among irradiated and unirradiated patients respectively (P = 0·422)., Conclusion: Limiting preoperative radiotherapy in rectal cancer to patients with a threatened circumferential margin does not compromise patient outcome., (Copyright © 2011 British Journal of Surgery Society Ltd. Published by John Wiley & Sons, Ltd.)

Published

2011

40. Planetary science. Io's tortured interior.

Author

Coates AJ

Published

2011

41. The auroral footprint of Enceladus on Saturn.

Author

Pryor WR, Rymer AM, Mitchell DG, Hill TW, Young DT, Saur J, Jones GH, Jacobsen S, Cowley SW, Mauk BH, Coates AJ, Gustin J, Grodent D, Gérard JC, Lamy L, Nichols JD, Krimigis SM, Esposito LW, Dougherty MK, Jouchoux AJ, Stewart AI, McClintock WE, Holsclaw GM, Ajello JM, Colwell JE, Hendrix AR, Crary FJ, Clarke JT, and Zhou X

Abstract

Although there are substantial differences between the magnetospheres of Jupiter and Saturn, it has been suggested that cryovolcanic activity at Enceladus could lead to electrodynamic coupling between Enceladus and Saturn like that which links Jupiter with Io, Europa and Ganymede. Powerful field-aligned electron beams associated with the Io-Jupiter coupling, for example, create an auroral footprint in Jupiter's ionosphere. Auroral ultraviolet emission associated with Enceladus-Saturn coupling is anticipated to be just a few tenths of a kilorayleigh (ref. 12), about an order of magnitude dimmer than Io's footprint and below the observable threshold, consistent with its non-detection. Here we report the detection of magnetic-field-aligned ion and electron beams (offset several moon radii downstream from Enceladus) with sufficient power to stimulate detectable aurora, and the subsequent discovery of Enceladus-associated aurora in a few per cent of the scans of the moon's footprint. The footprint varies in emission magnitude more than can plausibly be explained by changes in magnetospheric parameters--and as such is probably indicative of variable plume activity.

Published

2011

42. A qualitative assessment of a provincial quality improvement strategy for pancreatic cancer surgery.

Author

Wright FC, Fitch M, Coates AJ, and Simunovic M

Subjects

Attitude of Health Personnel, Canada, Humans, Qualitative Research, Survival Rate, Treatment Outcome, Pancreatectomy, Pancreatic Neoplasms surgery, Practice Patterns, Physicians', Quality Assurance, Health Care, Quality Improvement

Abstract

Purpose: A study released in Ontario, Canada (1999) found a positive relationship between surgical volume and patient outcomes after pancreatic resection for cancer. In response, a province-level quality improvement (QI) strategy was initiated, which included the development and dissemination of a standards document and an audit and feedback exercise with surgeons. We assessed perceptions and actions of Ontario surgeons to this QI strategy., Methods: We conducted semistructured interviews with surgeons and chiefs of surgery at three types of hospitals providing pancreatic cancer surgery, including hospitals that provided high volumes of surgery after 2001, hospitals that provided low volumes of surgery after 2001, and hospitals that provided low volumes of surgery before 2001 and stopped after year 2001. High-volume hospitals performed ten or more surgeries annually. The interview guide was based on Pathman's model of physician practice change (i.e., awareness, agreement, adoption, and adherence). Grounded theory guided data collection and analysis., Results: Twenty-four interviews were completed. All groups were aware of the 1999 province-level QI strategy and agreed in principle with the standards document recommendations. Many surgeons had concerns regarding the number of cases necessary to be considered high-volume. Decisions to cease pancreas cancer surgery were occurring before 1999 and made at the surgeon level, often with input from the chief of surgery, but rarely with input from hospital administration., Conclusions: Surgeons were aware of and agreed in principle with the province-level QI strategy for pancreas cancer surgery. Decisions to continue or cease performing surgery were made by individual surgeons.

Published

2011

43. Cassini finds an oxygen-carbon dioxide atmosphere at Saturn's icy moon Rhea.

Author

Teolis BD, Jones GH, Miles PF, Tokar RL, Magee BA, Waite JH, Roussos E, Young DT, Crary FJ, Coates AJ, Johnson RE, Tseng WL, and Baragiola RA

Subjects

Atmosphere, Extraterrestrial Environment, Ice, Mass Spectrometry, Photochemical Processes, Spacecraft, Carbon Dioxide, Oxygen, Saturn

Abstract

The flyby measurements of the Cassini spacecraft at Saturn's moon Rhea reveal a tenuous oxygen (O(2))-carbon dioxide (CO(2)) atmosphere. The atmosphere appears to be sustained by chemical decomposition of the surface water ice under irradiation from Saturn's magnetospheric plasma. This in situ detection of an oxidizing atmosphere is consistent with remote observations of other icy bodies, such as Jupiter's moons Europa and Ganymede, and suggestive of a reservoir of radiolytic O(2) locked within Rhea's ice. The presence of CO(2) suggests radiolysis reactions between surface oxidants and organics or sputtering and/or outgassing of CO(2) endogenic to Rhea's ice. Observations of outflowing positive and negative ions give evidence for pickup ionization as a major atmospheric loss mechanism.

Published

2010

44. Astrobiological considerations for the selection of the geological filters on the ExoMars PanCam instrument.

Author

Cousins CR, Griffiths AD, Crawford IA, Prosser BJ, Storrie-Lombardi MC, Davis LE, Gunn M, Coates AJ, Jones AP, and Ward JM

Subjects

Aluminum Compounds analysis, Aluminum Compounds chemistry, Carbonates analysis, Carbonates chemistry, Ferric Compounds analysis, Ferric Compounds chemistry, Geologic Sediments chemistry, Geology instrumentation, Geology methods, Potassium Compounds analysis, Potassium Compounds chemistry, Sulfates analysis, Sulfates chemistry, Exobiology instrumentation, Geologic Sediments analysis

Abstract

The Panoramic Camera (PanCam) instrument will provide visible-near IR multispectral imaging of the ExoMars rover's surroundings to identify regions of interest within the nearby terrain. This multispectral capability is dependant upon the 12 preselected "geological" filters that are integrated into two wide-angle cameras. First devised by the Imager for Mars Pathfinder team to detect iron oxides, this baseline filter set has remained largely unchanged for subsequent missions (Mars Exploration Rovers, Beagle 2, Phoenix) despite the advancing knowledge of the mineralogical diversity on Mars. Therefore, the geological filters for the ExoMars PanCam will be redesigned to accommodate the astrobiology focus of ExoMars, where hydrated mineral terrains (evidence of past liquid water) will be priority targets. Here, we conduct an initial investigation into new filter wavelengths for the ExoMars PanCam and present results from tests performed on Mars analog rocks. Two new filter sets were devised: one with filters spaced every 50 nm ("F1-12") and another that utilizes a novel filter selection method based upon hydrated mineral reflectance spectra ("F2-12"). These new filter sets, along with the Beagle 2 filter set (currently the baseline for the ExoMars PanCam), were tested on their ability to identify hydrated minerals and biosignatures present in Mars analog rocks. The filter sets, with varying degrees of ability, detected the spectral features of minerals jarosite, opaline silica, alunite, nontronite, and siderite present in these rock samples. None of the filter sets, however, were able to detect fossilized biomat structures and small (<2 mm) mineralogical heterogeneities present in silica sinters. Both new filter sets outperformed the Beagle 2 filters, with F2-12 detecting the most spectral features produced by hydrated minerals and providing the best discrimination between samples. Future work involving more extensive testing on Mars analog samples that exhibit a wider range of mineralogies would be the next step in carefully evaluating the new filter sets.

Published

2010

45. Low-temperature ionizing radiation resistance of Deinococcus radiodurans and Antarctic Dry Valley bacteria.

Author

Dartnell LR, Hunter SJ, Lovell KV, Coates AJ, and Ward JM

Subjects

Antarctic Regions, Cold Temperature, Desiccation, Environmental Exposure, Extraterrestrial Environment, Mars, Proteobacteria isolation & purification, Radiation Tolerance, Radiation, Ionizing, Rhodococcus isolation & purification, Deinococcus radiation effects, Microbial Viability radiation effects, Proteobacteria radiation effects, Rhodococcus radiation effects

Abstract

The high flux of cosmic rays onto the unshielded surface of Mars poses a significant hazard to the survival of martian microbial life. Here, we determined the survival responses of several bacterial strains to ionizing radiation exposure while frozen at a low temperature characteristic of the martian near-subsurface. Novel psychrotolerant bacterial strains were isolated from the Antarctic Dry Valleys, an environmental analogue of the martian surface, and identified by 16S rRNA gene phylogeny as representatives of Brevundimonas, Rhodococcus, and Pseudomonas genera. These isolates, in addition to the known radioresistant extremophile Deinococcus radiodurans, were exposed to gamma rays while frozen on dry ice (-79°C). We found D. radiodurans to exhibit far greater radiation resistance when irradiated at -79°C than was observed in similar studies performed at higher temperatures. This greater radiation resistance has important implications for the estimation of potential survival times of microorganisms near the martian surface. Furthermore, the most radiation resistant of these Dry Valley isolates, Brevundimonas sp. MV.7, was found to show 99% 16S rRNA gene similarity to contaminant bacteria discovered in clean rooms at both Kennedy and Johnson Space Centers and so is of prime concern to efforts in the planetary protection of Mars from our lander probes. Results from this experimental irradiation, combined with previous radiation modeling, indicate that Brevundimonas sp. MV.7 emplaced only 30 cm deep in martian dust could survive the cosmic radiation for up to 100,000 years before suffering 10⁶ population reduction.

Published

2010

46. Negative ions at Titan and Enceladus: recent results.

Author

Coates AJ, Wellbrock A, Lewis GR, Jones GH, Young DT, Crary FJ, Waite JH, Johnson RE, Hille TW, and Sittler EC Jr

Abstract

The detection of heavy negative ions (up to 13 800 amu) in Titan's ionosphere is one of the tantalizing new results from the Cassini mission. These heavy ions indicate for the first time the existence of heavy hydrocarbon and nitrile molecules in this primitive Earth-like atmosphere. These ions were suggested to be precursors of aerosols in Titan's atmosphere and may precipitate to the surface as tholins. We present the evidence for and the analysis of these heavy negative ions at Titan. In addition we examine the variation of the maximum mass of the Titan negative ions with altitude and latitude for the relevant encounters so far, and we discuss the implications for the negative ion formation process. We present data from a recent set of encounters where the latitude was varied between encounters, with other parameters fixed. Models are beginning to explain the low mass negative ions, but the formation process for the higher mass ions is still not understood. It is possible that the structures may be chains, rings or even fullerenes. Negative ions, mainly water clusters in this case, were seen during Cassini's recent close flybys of Enceladus. We present mass spectra from the Enceladus plume, showing water clusters and additional species. As at Titan, the negative ions indicate chemical complexities which were unknown before the Cassini encounters, and are indicative of a complex balance between neutrals and positively and negatively charged ions.

Published

2010

47. Laser-Induced Fluorescence Emission (L.I.F.E.): searching for Mars organics with a UV-enhanced PanCam.

Author

Storrie-Lombardi MC, Muller JP, Fisk MR, Cousins C, Sattler B, Griffiths AD, and Coates AJ

Subjects

Antarctic Regions, Crystallization, Fluorescence, Limit of Detection, Polycyclic Aromatic Hydrocarbons analysis, Volcanic Eruptions, Exobiology instrumentation, Extraterrestrial Environment chemistry, Lasers, Mars, Organic Chemicals analysis, Ultraviolet Rays

Abstract

The European Space Agency will launch the ExoMars mission in 2016 with a primary goal of surveying the martian subsurface for evidence of organic material. We have recently investigated the utility of including either a 365 nm light-emitting diode or a 375 nm laser light source in the ExoMars rover panoramic camera (PanCam). Such a modification would make it feasible to monitor rover drill cuttings optically for the fluorescence signatures of aromatic organic molecules and map the distribution of polycyclic aromatic hydrocarbons (PAHs) as a function of depth to the 2 m limit of the ExoMars drill. The technique described requires no sample preparation, does not consume irreplaceable resources, and would allow mission control to prioritize deployment of organic detection experiments that require sample destruction, expenditure of non-replaceable consumables, or both. We report here for the first time laser-induced fluorescence emission (L.I.F.E.) imaging detection limits for anthracene, pyrene, and perylene targets doped onto a Mars analog granular peridotite with a 375 nm Nichia laser diode in optically uncorrected wide-angle mode. Data were collected via the Beagle 2 PanCam backup filter wheel fitted with original blue (440 nm), green (530 nm), and red (670 nm) filters. All three PAH species can be detected with the PanCam green (530 nm) filter. Detection limits in the green band for signal-to-noise ratios (S/N) > 10 are 49 parts per million (ppm) for anthracene, 145 ppm for pyrene, and 20 ppm for perylene. The anthracene detection limit improves to 7 ppm with use of the PanCam blue filter. We discuss soil-dependent detection limit constraints; use of UV excitation with other rover cameras, which provides higher spatial resolution; and the advantages of focused and wide-angle laser modes. Finally, we discuss application of L.I.F.E. techniques at multiple wavelengths for exploration of Mars analog extreme environments on Earth, including Icelandic hydrothermally altered basalts and the ice-covered lakes and glaciers of Dronning Maud Land, Antarctica.

Published

2009

48. Evaluation of salt supplementation in CF infants.

Author

Coates AJ, Crofton PM, and Marshall T

Subjects

Adolescent, Body Weight, Creatinine urine, Cystic Fibrosis metabolism, Female, Humans, Hyponatremia blood, Hyponatremia urine, Infant, Newborn, Infant, Newborn, Diseases metabolism, Male, Sodium Chloride, Dietary pharmacokinetics, Cystic Fibrosis diet therapy, Hyponatremia diet therapy, Infant, Newborn, Diseases diet therapy, Sodium Chloride, Dietary administration & dosage

Abstract

Background: CF infants may be at increased risk of sodium depletion which may lead to impaired growth. The objective of this study was to evaluate their sodium supplementation requirements., Methods: Ten CF infants had serial measurements of weight and plasma/urine sodium and creatinine. Sodium supplementation was adjusted with the aim of maintaining fractional excretion (FENa) between 0.5% and 1.5% and urinary sodium > 10 mmol/L., Results: Urine sodium:creatinine (UNa:Cr) ratio strongly correlated with FENa [UNa:Cr (mmol/mmol)=35.0 x FENa (r=0.99)]. The FENa target range corresponded to UNa:Cr 17-52 mmol/mmol. All infants required sodium supplementation to achieve UNa:Cr > 17 mmol/mmol. Sodium supplement requirements (mean+/-SD) at ages 0-3, 3-6, 6-9 and 9-12 months were 1.9+/-0.5, 1.8+/-0.8, 1.9+/-0.9 and 0.8+/-0.4 mmol/kg/d. No infant required calorie supplementation to achieve expected weight gain., Conclusions: Using current UK guidelines, many cases of sodium depletion may be overlooked. Some infants require more than the recommended 1-2 mmol/kg/d. UNa:Cr ratio is a useful non-invasive measure to monitor sodium supplementation.

Published

2009

49. Interaction of Titan's ionosphere with Saturn's magnetosphere.

Author

Coates AJ

Abstract

Titan is the only Moon in the Solar System with a significant permanent atmosphere. Within this nitrogen-methane atmosphere, an ionosphere forms. Titan has no significant magnetic dipole moment, and is usually located inside Saturn's magnetosphere. Atmospheric particles are ionized both by sunlight and by particles from Saturn's magnetosphere, mainly electrons, which reach the top of the atmosphere. So far, the Cassini spacecraft has made over 45 close flybys of Titan, allowing measurements in the ionosphere and the surrounding magnetosphere under different conditions. Here we review how Titan's ionosphere and Saturn's magnetosphere interact, using measurements from Cassini low-energy particle detectors. In particular, we discuss ionization processes and ionospheric photoelectrons, including their effect on ion escape from the ionosphere. We also discuss one of the unexpected discoveries in Titan's ionosphere, the existence of extremely heavy negative ions up to 10000amu at 950km altitude.

Published

2009

50. The magnetic memory of Titan's ionized atmosphere.

Author

Bertucci C, Achilleos N, Dougherty MK, Modolo R, Coates AJ, Szego K, Masters A, Ma Y, Neubauer FM, Garnier P, Wahlund JE, and Young DT

Abstract

After 3 years and 31 close flybys of Titan by the Cassini Orbiter, Titan was finally observed in the shocked solar wind, outside of Saturn's magnetosphere. These observations revealed that Titan's flow-induced magnetosphere was populated by "fossil" fields originating from Saturn, to which the satellite was exposed before its excursion through the magnetopause. In addition, strong magnetic shear observed at the edge of Titan's induced magnetosphere suggests that reconnection may have been involved in the replacement of the fossil fields by the interplanetary magnetic field.

Published

2008