An Observational Upper Limit on the Interstellar Number Density of Asteroids and Comets

Engelhardt, Toni, Jedicke, Robert, Vereš, Peter, Fitzsimmons, Alan, Denneau, Larry, Beshore, Ed, Meinke, Bonnie

27 February 2017

We derived 90% confidence limits (CLs) on the interstellar number density (rho(CL)(IS)) of interstellar objects (ISOs; comets and asteroids) as a function of the slope of their size-frequency distribution (SFD) and limiting absolute magnitude. To account for gravitational focusing, we first generated a quasi-realistic ISO population to similar to 750 au from the Sun and propagated it forward in time to generate a steady state population of ISOs with heliocentric distance <50 au. We then simulated the detection of the synthetic ISOs using pointing data for each image and average detection efficiencies for each of three contemporary solar system surveys-Pan-STARRS1, the Mt. Lemmon Survey, and the Catalina Sky Survey. These simulations allowed us to determine the surveys' combined ISO detection efficiency under several different but realistic modes of identifying ISOs in the survey data. Some of the synthetic detected ISOs had eccentricities as small as 1.01, which is in the range of the largest eccentricities of several known comets. Our best CL of rho(CL)(SI) = 1.4 x 10(-4) au(-3) implies that the expectation that extra-solar systems form like our solar system, eject planetesimals in the same way, and then distribute them throughout the Galaxy, is too simplistic, or that the SFD or behavior of ISOs as they pass through our solar system is far from expectation.

comets

general - minor planets

asteroids

general - planetary systems

protoplanetary disks

Exocomet signatures around the A-shell star φ Leonis?

Eiroa, C., Rebollido, I., Montesinos, B., Villaver, E., Absil, O., Henning, Th., Bayo, A., Canovas, H., Carmona, A., Chen, Ch., Ertel, S., Iglesias, D. P., Launhardt, R., Maldonado, J., Meeus, G., Moór, A., Mora, A., Mustill, A. J., Olofsson, J., Riviere-Marichalar, P., Roberge, A.

10 October 2016

We present an intensive monitoring of high-resolution spectra of the Ca II K line in the A7IV shell star phi Leo at very short (minutes, hours), short (night to night), and medium (weeks, months) timescales. The spectra show remarkable variable absorptions on timescales of hours, days, and months. The characteristics of these sporadic events are very similar to most that are observed toward the debris disk host star beta Pic, which are commonly interpreted as signs of the evaporation of solid, comet-like bodies grazing or falling onto the star. Therefore, our results suggest the presence of solid bodies around phi Leo. To our knowledge, with the exception of beta Pic, our monitoring has the best time resolution at the mentioned timescales for a star with events attributed to exocomets. Assuming the cometary scenario and considering the timescales of our monitoring, our results indicate that phi Leo presents the richest environment with comet-like events known to date, second only to beta Pic.

planetary systems

stars: individual: phi Leo

comets: general

circumstellar matter

Formation et évolution des morphologies de surface des petits corps du système solaire, à partir des images de la sonde spatiale Rosetta / Formation and evolution of the surface morphologies of the small solar system bodies, from Rosetta spacecraft images

Auger, Anne-Thérèse

30 September 2016

Résidus du disque primitif dans lequel les planètes se sont formées, les astéroïdes et les comètes fournissent des contraintes sur les processus de formation et d’évolution du système solaire. A partir des images de la mission Rosetta, l’objectif de cette thèse est de caractériser les morphologies de surface de ces petits corps, et d’en étudier les processus qui ont permis de les former et de les faire évoluer.Sur l’astéroïde (21) Lutetia, le relief est contrôlé par les impacts, formant des cratères, des nappes d’éjectas, des fractures et des boulders.Sur la comète 67P, la région Imhotep, située au niveau de l’équateur, présente des terrains lisses et des terrains consolidés très fracturés. Elle est la seule région à présenter des dizaines de structures circulaires de moins de 60 m de diamètre, probablement très anciennes (Ga), que l’on trouve associées à des couches stratifiées de quelques mètres d’épaisseur. Lors du passage au périhélie, des changements de grande envergure se sont produits dans les terrains lisses ; ils pourraient être liés aux contraintes mécaniques opérant dans le sous-sol de la comète. Un type particulier de fractures observé en surface de 67P a aussi été étudié. Ces fractures se joignent pour former des polygones 3 m en moyenne. Ces polygones résultent probablement des fortes variations de température en surface et en subsurface. Plus généralement, les observations et les travaux d’interprétation à partir des données de la mission Rosetta montrent que les morphologies de surface sur 67P sont autant dues à sa formation et à des processus endogènes qu’à des processus exogènes et évolutifs tels que la sublimation ou les contraintes thermiques. / Residuals from the accretion disk in which planets formed, asteroids and comets provide important constraints on the solar system formation and evolution processes. Based on the images from the Rosetta mission, the main objectives of this thesis are to characterize the morphologies at the surface of these small bodies and to study the processes responsible for their formation and evolution.On asteroid (21) Lutetia, the relief is controlled by impacts, forming craters, ejecta blankets, fractures and boulders.On the nucleus of comet 67P, the Imhotep region, located at the equator of the nucleus, presents smooth terrains and consolidated terrains, heavily fractured. It is the only region that shows tens of circular features less than 60 m in size, probably ancient, which we find associated with layers of several meters thick. During the passage at perihelion, major changes occurred in smooth terrains ; they may be linked to mechanical stresses acting in the nucleus subsurface. A particular type of fractures observed at the surface of 67P has also been studied in detail. These fractures join each other in polygons of roughly 3 m in size. These polygons probably result from the strong variations of temperature at the surface and subsurface. More generally, the observations and their interpretation from Rosetta data show that the morphologies at the surface of 67P can result from its formation and endogeneous processes, as well as from exogeneous and evolutionary processes such as the sublimation of ices or thermal stresses.

Comètes

Astéroïdes

Processus de surface

Évolution

Comets

Asteroids

Surface processes

Evolution

Analysis of MIRO/Rosetta Data

Marshall, David

19 December 2018

No description available.

530

Physik (PPN621336750)

Comets

67P/Churyumov-Gerasimenko

Microwave

Spectroscopy

Dynamical Studies of the Kuiper Belt and the Centaurs

Volk, Kathryn Margaret

January 2013

The Kuiper belt is a population of small bodies located outside Neptune's orbit. The observed Kuiper belt objects (KBOs) can be divided into several subclasses based on their dynamical structure. I construct models for these subclasses and use numerical integrations to investigate their long-term evolution. I use these models to quantify the connection between the Kuiper belt and the Centaurs (objects whose orbits cross the orbits of the giant planets) and the short-period comets in the inner solar system. I discuss how these connections could be used to determine the physical properties of KBOs and what future observations could conclusively link the comets and Centaurs to specific Kuiper belt subclasses. The Kuiper belt's structure is determined by a combination of long-term evolution and its formation history. The large eccentricities and inclinations of some KBOs and the prevalence of KBOs in mean motion resonances with Neptune are evidence that much of the Kuiper belt's structure originated during the solar system's epoch of giant planet migration; planet migration can sculpt the Kuiper belt's scattered disk, capture objects into mean motion resonances, and dynamically excite KBOs. Different models for planet migration predict different formation locations for the subclasses of the Kuiper belt, which might result in different size distributions and compositions between the subclasses; the high-inclination portion of the classical Kuiper belt is hypothesized to have formed closer to the Sun than the low-inclination classical Kuiper belt. I use my model of the classical Kuiper belt to show that these two populations remain largely dynamically separate over long timescales, so primordial physical differences could be maintained until the present day.The current Kuiper belt is much less massive than the total mass required to form its largest members. It must have undergone a mass depletion event, which is likely related to planet migration. The Haumea collisional family dates from the end of this process. I apply long-term evolution to family formation models and determine how they can be observationally tested. Understanding the Haumea family's formation could shed light on the nature of the mass depletion event.

Dynamics

Kuiper belt

Solar system

Planetary Sciences

Comets

Effects of Insolation on Habitability and the Isotopic History of Martian Water

Moores, John Edward

January 2008

Three aspects of the Habitability of the Northern Plains of Mars to organics and terrestrial-like microbial life were assessed. (1) Protection offered by small surface features and (2) the breakdown of rocks to form soils were examined using a radiative transfer computer model. Two separate sublimation experiments provided a basis to improve (3) estimates of the amount of available water today and in the past by determining the fractionation of HDO between present-day reservoirs.(1) UV radiation sterilizes the hardiest of terrestrial organisms within minutes on the Martian surface. Small surface features including pits, trenches, flat faces and overhangs may create "safe havens" for organisms by blocking much of the UV flux. In the most favorable cases, this flux is sufficiently reduced such that organic in-fall could accumulate beneath overhanging surfaces and in pits and cracks while terrestrial microorganisms could persist for several tens of martian years.(2) The production of soils on the surface is considered by analogy with the arid US Southwest. Here differential insolation of incipient cracks of random orientations predicts crack orientation distributions consistent with field observations by assuming that only crack orientations which shield their interiors, minimizing their water loss, can grow, eventually disrupting the clast.(3) Disaggregated water ice to simulate the polar caps was produced by flash freezing in liquid nitrogen and crushing. When dust was added to the mixtures, the D/H ratio of the sublimate gas was seen to decrease with time from the bulk ratio. The more dust was added to the mixture, the more pronounced was this effect. The largest fractionation factor observed during these experiments was 2.5. Clean ice was also prepared and overlain by dust to simulate ground ice. Here, the movement of water vapor was modeled using an effective diffusivity that incorporated both adsorption on grains and diffusion. For low temperatures (<-55°C) a significant difference between the diffusivities of H2O and HDO was observed. This suggests adsorptive-control within the regolith as energies of interaction are 60-70kJmol-1. This ability of the martian regolith to preferentially adsorb HDO decouples the ice table and polar caps from the atmosphere and allows for geographic variations in the D/H ratio on Mars.

Comets

Deuterium

Mars

planetary protection

radiative transfer

Water

A physical survey of Centaurs

Bauer, James Monie

05 1900

There are forty four known small planetary bodies with orbits that are contained within the heliocentric distances of Jupiter and Neptune. It is thought that the origin of these bodies is the Kuiper Belt, the predicted reservoir of the current short period comet population. Yet, only two bodies, Chiron and C/NEAT (2001 T4), have been shown to possess a visible coma. We've undertaken an observational survey of these bodies to obtain detailed characterization of the physical properties of the Centaurs to search for evidence of activity, and to use the physical characteristics to make inferences about primordial conditions in the outer solar nebula and evolutionary processes among different dynamical regimes in the outer nebula. We present the results of optical observations of 24 Centaurs, which yield a 3-σ correlation of color with semimajor axis, with redder Centaurs being farther from the Sun. The survey also revealed the rotation light curve period for 2 Centaurs, and the phase-darkening slope parameters, G, for 5 Centaurs which range from -0.18 to 0.13, agreeing with the steepest of main belt asteroid phase curve responses. We show spectral evidence of a variegated surface for 1999 UG5 and find the second reddest Centaur object is the active Centaur C/NEAT (2001 T4). We also present spectral evidence of crystalline water ice and ammonia species on our comparison object, the Uranian satellite Miranda.

Centaurs

Planetary

Comets

Asteroids

Kuiper belt

Astronomy

Astrophysics

Charge exchange laboratory studies relevant to solar-wind-induced cometary and planetary x-ray emission /

Eissa, Farhat.

January 2007

Thesis (Ph. D.)--University of Nevada, Reno, 2007. / Includes bibliographical references (leaves 95-99). Library also has microfilm. Ann Arbor, Mich. : ProQuest Information and Learning Company, [2008]. 1 microfilm reel ; 35 mm. Online version available on the World Wide Web.

The First Post-Kepler Brightness Dips of KIC 8462852

Boyajian, Tabetha. S., Alonso, Roi, Ammerman, Alex, Armstrong, David, Ramos, A. Asensio, Barkaoui, K., Beatty, Thomas G., Benkhaldoun, Z., Benni, Paul, O. Bentley, Rory, Berdyugin, Andrei, Berdyugina, Svetlana, Bergeron, Serge, Bieryla, Allyson, Blain, Michaela G., Blanco, Alicia Capetillo, Bodman, Eva H. L., Boucher, Anne, Bradley, Mark, Brincat, Stephen M., Brink, Thomas G., Briol, John, Brown, David J. A., Budaj, J., Burdanov, A., Cale, B., Carbo, Miguel Aznar, García, R. Castillo, Clark, Wendy J, Clayton, Geoffrey C., Clem, James L., Coker, Phillip H, Cook, Evan M., Copperwheat, Chris M., Curtis, J. L., Cutri, R. M., Cseh, B., Cynamon, C. H., Daniels, Alex J., Davenport, James R. A., Deeg, Hans J., Lorenzo, Roberto De, Jaeger, Thomas de, Desrosiers, Jean-Bruno, Dolan, John, Dowhos, D. J., Dubois, Franky, Durkee, R., Dvorak, Shawn, Easley, Lynn, Edwards, N., Ellis, Tyler G., Erdelyi, Emery, Ertel, Steve, Farfán, Rafael. G., Farihi, J., Filippenko, Alexei V., Foxell, Emma, Gandolfi, Davide, Garcia, Faustino, Giddens, F., Gillon, M., González-Carballo, Juan-Luis, González-Fernández, C., Hernández, J. I. González, Graham, Keith A., Greene, Kenton A., Gregorio, J., Hallakoun, Na’ama, Hanyecz, Ottó, Harp, G. R., Henry, Gregory W., Herrero, E., Hildbold, Caleb F., Hinzel, D., Holgado, G., Ignácz, Bernadett, Ilyin, Ilya, Ivanov, Valentin D., Jehin, E., Jermak, Helen E., Johnston, Steve, Kafka, S., Kalup, Csilla, Kardasis, Emmanuel, Kaspi, Shai, Kennedy, Grant M., Kiefer, F., Kielty, C. L., Kessler, Dennis, Kiiskinen, H., Killestein, T. L., King, Ronald A., Kollar, V., Korhonen, H., Kotnik, C., Könyves-Tóth, Réka, Kriskovics, Levente, Krumm, Nathan, Krushinsky, Vadim, Kundra, E., Lachapelle, Francois-Rene, LaCourse, D., Lake, P., Lam, Kristine, Lamb, Gavin P., Lane, Dave, Lau, Marie Wingyee, Lewin, Pablo, Lintott, Chris, Lisse, Carey, Logie, Ludwig, Longeard, Nicolas, Villanueva, M. Lopez, Ludington, E. Whit, Mainzer, A., Malo, Lison, Maloney, Chris, Mann, A., Mantero, A., Marengo, Massimo, Marchant, Jon, Martínez González, M. J., Masiero, Joseph R., Mauerhan, Jon C., McCormac, James, McNeely, Aaron, Meng, Huan Y. A., Miller, Mike, Molnar, Lawrence A., Morales, J. C., Morris, Brett M., Muterspaugh, Matthew W., Nespral, David, Nugent, C. R., Nugent, Katherine M., Odasso, A., O’Keeffe, Derek, Oksanen, A., O’Meara, John M., Ordasi, András, Osborn, Hugh, Ott, John J., Parks, J. R., Perez, Diego Rodriguez, Petriew, Vance, Pickard, R, Pál, András, Plavchan, P., Pollacco, Don, Nuñez, F. Pozo, J. Pozuelos, F., Rau, Steve, Redfield, Seth, Relles, Howard, Ribas, Ignasi, Richards, Jon, Saario, Joonas L. O., Safron, Emily J., Sallai, J. Martin, Sárneczky, Krisztián, Schaefer, Bradley E., Schumer, Clea F., Schwartzendruber, Madison, Siegel, Michael H., Siemion, Andrew P. V., Simmons, Brooke D., Simon, Joshua D., Simón-Díaz, S., Sitko, Michael L., Socas-Navarro, Hector, Sódor, Á., Starkey, Donn, Steele, Iain A., Stone, Geoff, Strassmeier, Klaus G., Street, R. A., Sullivan, Tricia, Suomela, J., Swift, J. J., Szabó, Gyula M., Szabó, Róbert, Szakáts, Róbert, Szalai, Tamás, Tanner, Angelle M., Toledo-Padrón, B., Tordai, Tamás, Triaud, Amaury H. M. J., Turner, Jake D., Ulowetz, Joseph H., Urbanik, Marian, Vanaverbeke, Siegfried, Vanderburg, Andrew, Vida, Krisztián, Vietje, Brad P., Vinkó, József, Braun, K. von, Waagen, Elizabeth O., Walsh, Dan, Watson, Christopher A., Weir, R. C., Wenzel, Klaus, Plaza, C. Westendorp, Williamson, Michael W., Wright, Jason T., Wyatt, M. C., Zheng, WeiKang, Zsidi, Gabriella

19 January 2018

We present a photometric detection of the first brightness dips of the unique variable star KIC 8462852 since the end of the Kepler space mission in 2013 May. Our regular photometric surveillance started in 2015 October, and a sequence of dipping began in 2017 May continuing on through the end of 2017, when the star was no longer visible from Earth. We distinguish four main 1%-2.5% dips, named "Elsie," "Celeste," "Skara Brae," and " Angkor," which persist on timescales from several days to weeks. Our main results so far are as follows: (i) there are no apparent changes of the stellar spectrum or polarization during the dips and (ii) the multiband photometry of the dips shows differential reddening favoring non-gray extinction. Therefore, our data are inconsistent with dip models that invoke optically thick material, but rather they are in-line with predictions for an occulter consisting primarily of ordinary dust, where much of the material must be optically thin with a size scale << 1 mu m, and may also be consistent with models invoking variations intrinsic to the stellar photosphere. Notably, our data do not place constraints on the color of the longer-term "secular" dimming, which may be caused by independent processes, or probe different regimes of a single process.

comets: general

stars: activity

stars: individual (KIC 8462852)

stars: peculiar

Etude en laboratoire de grains extraterrestres et de leurs analogues de synthèse / Laboratory analyses of extraterrestrial materials and of their synthetic analogs

Merouane, Sihane

11 October 2013

L’étude en laboratoire de matériaux extraterrestres provenant d’objets ayant peu ou pas évolué depuis leur formation il y a environ 4.6 milliards d’années, peut améliorer notre connaissance sur les débuts de notre système planétaire. Par ailleurs, la simulation en laboratoire de certains processus que ces matériaux sont susceptibles de subir au cours de leur histoire apporte également de précieuses informations pour l’interprétation des données issues des observations astronomiques ainsi que pour la compréhension de l’évolution des solides du Milieu Interstellaire jusqu’à leur incorporation dans des objets planétaires, objets incluant aussi toutes sortes de débris tels que les astéroÏdes, les comètes et toutes sortes de poussières accessibles à la collecte et/ou à l’observation.Au cours de cette thèse, l’analyse des matériaux organiques ainsi que des matériaux silicatés, jusqu’alors peu étudiés conjointement, dans les poussières stratosphériques d’origine cosmique, révèle une corrélation entre la minéralogie des grains et la longueur des chaînes carbonées. Ce lien ne semble pas le fruit de processus à la surface des corps parents des grains mais semble plutôt tracer des processus pré-accrétionnels. La conservation de composants peu altérés sur les corps parents dans les matériaux extraterrestres est encore une fois confirmée par la découverte, au cours de cette thèse, d’inclusions dans la météorite carbonée « Paris » dont les spectres infrarouges sont très similaires à ceux des composés carbonés observés dans le Milieu Interstellaire. L’étude de grains cométaires issus de la mission spatiale Stardust a montré, contrairement à l’idée que les comètes soient composées uniquement de matériaux primitifs puisque conservés dans un réservoir froid, que celles-ci contiennent aussi un certain nombre de matériaux formés à haute température, confirmant alors de précédentes analyses d’échantillons de Stardust et impliquant des échanges de matériaux à grande échelle radiale dans le jeune Système solaire.La deuxième partie de ce travail, consacrée à l’étude d’analogues de matière extraterrestre, porte sur le rôle qu’ont pu jouer les matériaux à partir desquels les planètes telluriques se sont formées dans l’apport de l’eau sur la Terre dans le cadre du scénario dit de « wet accretion ». Les expériences effectuées au cours de cette thèse visant à simuler les interactions entre silicates et vapeur d’eau ont montré que ces matériaux permettent de stocker d’importantes quantités d’eau à leur surface par adsorption des molécules de la phase gazeuse. / Laboratory analyses performed on extraterrestrial materials originating from primitive bodies of our Solar System, that are bodies known to have suffered low alteration since their formation 4.6 billion years ago, can improve our knowledge on processes that have occurred in the early phase of our planetary system. Furthermore, laboratory simulations of some processes that these materials are likely to suffer during their life cycle also bring precious indications for interpreting observational data as well as for understanding the evolution of solids from the Interstellar Medium to their incorporation into planetary bodies, these latter including asteroids, comets and all kinds of dust that may be observed and/or collected back to Earth.During this thesis, the analysis of silicate as well as organic materials, which have not been much studied jointly so far, in stratospheric particles of cosmic origin, reveals a correlation between the mineralogy of the grains and the lengths of the chains of their carbonaceous component. This link does not seem to be due to parent body processing but rather to trace pre-accretionnal processes. The preservation of pristine components in extraterrestrial materials slightly altered on their parent bodies is again confirmed by the discovery in this work, of inclusions in the “Paris” carbonaceous chondrite whose infrared spectra are similar to the interstellar carbonaceous species. The study of cometary grains from the Stardust space mission showed, unlike the common idea that comets should be composed only of primitive materials since they reside in a cold reservoir, that comets do also contain a number of materials formed at high temperature, thus confirming results from previous studies of Stardust samples and implying large-scale radial mixing of materials in the young Solar system disk.The second part of my work, dedicated to experiments on primitive extraterrestrial amorphous silicates analogs, is aimed to study the role that materials from which Earth has accreted could have played in its water budget in the frame of the “wet accretion” scenario. The experiments performed along this thesis simulating interactions between silicates and water vapor, showed that silicates allow the storage of large quantities of water by adsorption onto their surface of molecules directly from the gas phase.

Météorites

Poussière cosmique

Astéroides

Comètes

Meteorites

Cosmic dust

Asteroids

Comets