DOCSLIB.ORG

ISSI Annual Report 2010/2011 Business Year 16

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
ISSI Annual Report 2010/2011 Business Year 16 ____2010 2011 Annual Report Cover Page Imprint Puzzle composed of six images (from the upper left to the lower right): Publisher International Space Science Institute 1. The northern latitudes of Saturn. The true color Hallerstrasse 6 view was taken by the NASA/ESA/ASI Cassini space- CH-3012 Bern craft (NASA, JPL, Space Science Institute). Switzerland Tel.: +41 31 631 48 96 2. All-sky image obtained by ESA’s Integral gamma- Fax.: +41 31 631 48 97 ray observatory superposed with an Earth image by E-mail: [email protected] ESA/EUMETSAT’s Meteosat satellite (ESA/IKI Integral Internet: www.issibern.ch Team). Editors 3. Light and Shadow in the Carina Nebula (NASA, Andrea Fischer and Rudolf von Steiger the Hubble Heritage Team). Concept/Layout 4. Detail View of an Ultraviolet Light Source in an Andrea Fischer Old Galaxy (Hubble Space Telescope, NASA). Cover Design 5. The SOHO spacecraft captured the arcing orbit of Andrea Fischer a sungrazing comet as it approached the Sun (January 3, 2010) and evaporated (SOHO/NASA/ Printed by ESA). Länggass Druck AG Länggassstr. 65 6. Detail View: First ESA Faint Object Camera Science 3000 Bern 9 Images The Radio Galaxy PKS 0521-36 (NASA Switzerland Hubble Space Telescope Collection). Table of Contents The International Space Science Institute (ISSI) is an Institute of Advanced Studies where scientists from all over the world meet in a multi- and interdisciplinary setting to reach out for new scientific horizons. The main function is to contribute to the achievement of a deeper understanding of the results from different space missions, ground based observations and laboratory experiments, and adding value of those results through multidisciplinary research. The program of ISSI covers a widespread spectrum of disciplines from the physics of the solar system and planetary sciences to astrophysics and cosmology, and from Earth sciences to astrobiology. 4 From the Chairman of the Board of Trustees 20 Forthcoming Workshops and Forum 5 From the Directors 22 International Teams 7 About the International Space Science Institute 33 International Teams approved in 2011 8 The Board of Trustees 34 Visiting Scientists 9 The Science Committee 36 Events and ISSI in the media at a glance 10 The ISSI Staff 38 Staff Activities 11 Facilities 42 Staff Publications 12 Financial Overview 44 Visitor Publications 13 The Association Pro ISSI 51 Space Sciences Series of ISSI (SSSI) 14 Scientific Activities: The 16th Year 54 ISSI Scientific Reports Series (SR) 15 Forum 55 Pro ISSI SPATIUM Series 16 Workshops 56 ISSI Publications published in the 16th Business Year ISSI Annual Report 2010 | 2011 From the Chairman of the Board of Trustees The Board of Trustees of the International Space Science Institute Foundation consists of two kinds of members: Delegated members and elected members. A number of organizations, authorities and societies are entitled by the Deed to delegate a member of the Board. There are no rules as to the age or term of office of these delegates. Besides them, the Board co-opts five members by election from among the worldwide community of space scientists. These elected members can serve two consecutive terms of three years. This year has seen an unusual rejuvenation. Of the thirteen members, no less than five have left the Board by the end of the business year. These are Claude Nicollier, Klaus Pretzl, Johannes Ortner, David Southwood and Hanspeter Schneiter. In the name of the whole ISSI community I would like to thank all these gentlemen for their dedication and loyalty to the International Space Science Institute. The latter three have served on the Board since the very beginning in 1995, Hanspeter Schneiter as the founding Chairman until 2008. Thank you all for your service! Replacing the five retirees we have six new members! How can that be? In the spring meeting of 2011 the Board decided to invite NASA to nominate a delegate like they had in the first years of ISSI. NASA complied and nominated Lennard A. Fisk, who had been an elected Board member. So, we had to fill an additional vacancy. The new members are: Daniel Fürst, nominated by the Founder as successor to Hanspeter Schneiter Alvaro Giménez, nominated by ESA as successor to David Southwood Rosine Lallement, elected by the Board André Maeder, elected by the Board Nicolas Thomas, new President and ex officio delegate of the Pro ISSI Association Sergio Volonté, elected by the Board. I welcome these new members and wish them many exciting hours of lively exchange on the mission of ISSI. Thank you for your willingness to serve! The coming year will be crucial. A new proposal for the financing for the next four years has to be submitted to the Swiss Government. Considering the volatile financial situation of all public entities in Europe and beyond, the Board has decided to review the basics of its strategy. They will meet in an extraordinary strategic two-day session in September of this year. The scope of this session is wide open. Whatever strategy will come out as a result of that meeting it will have to be robust enough to make it through possibly stormy times and to realize opportunities that may arise. You will read more here next year. For the Board of Trustees Simon Aegerter Wollerau, August 24, 2011 From the Directors 4/5 As mentioned last year in the previous issue of the annual report, a great deal of effort was dedicated in the course of this 16th year in reflecting on the future evolution of the Institute. While the role and aims of the Institute remain unchanged, unless the ISSI Board decides otherwise, the environment in which the Institute serves the space sciences community is evolving. After 16 years, the success of ISSI can be measured through an increasing set of activities and the full use of all the various tools that ISSI offers, as well as through the number of visitors and the impact factor of the Space Sciences Series of ISSI. The ISSI volumes are highly cited and perceived as useful references to the status of a particular field: in 2010, papers from all existing SSSI volumes were cited a total of 1823 times, with individual volumes collecting between a few and 188 citations. The two-year impact factor of Space Science Reviews (from which the ISSI volumes are reprinted) has developed very satisfactorily: 4.59 for 2009 and 4.43 for 2010. It should be noted that after 15 years of uninterrupted service and in the spirit of a very fruitful cooperation, our contractual agreement with ESA Publication Division, whereby ESA played the role of Editor for the ISSI Report Series mostly used to publish the outcome of the ISSI Working Groups, came to a stop. Negotiations with Springer, the Editor of the Space Sciences Series of ISSI, were concluded positively ensuring a proper continuation of that service and allowing commercializing the distribution of these books worldwide. All efforts are undertaken to avoid an interruption of the service through that transition. Some 771 scientists participated in ISSI in the course of last year of which 352 were there for the first time and among which were 95 young scientists offering a good evidence of the success of the Young Scientist program of ISSI. The response to the call for International Teams reached a new record with 73 proposals received of which 23 were approved by the Science Committee at its June meeting. Four ISSI Workshops were organized this year and detailed descriptions of each one are given in the body of the report. Noteworthy is the balance between topics as one Workshop is the first of the series of three recommended by the Superconveners in charge of following the conclusions of the ISSI Forum on the «Future of Magnetospheric Research» held in March 2009, another one concerns Earth sciences and one was organized in the framework of Europlanet. Noteworthy in a context of changes in the structures and organizations of our supporting administrations is the excellent atmosphere and spirit of cooperation ISSI enjoys, in particular with the Swiss Government as illustrated with the remarkable discussions held with the Secretary of State Mauro Dell’Ambrogio, with the Swiss Space Office and with ESA at the highest level. Our international partners are also re-enforcing their role and involvement as illustrated by the important nomination by the NASA Administrator of a NASA represen- tative in the ISSI Board, by the financial contribution of the Russian Academy of Sciences to the ISSI budget and last but not least by the large delegation of Chinese scientists in the ISSI Forum on the “Future Out-of- Ecliptic and In Situ Observations of the Sun” held last year where they presented their ambitious Solar Polar Orbiting Radio Telescope concept that was the rationale for organizing the Forum. These facts offer a good illustration of the regularly growing success of the ISSI concept established 16 years ago which was to provide a new and original tool helping the space sciences community to fully exploit the outcome of the set of results obtained with the satellites launched by the main spacefaring nations of the world. This success must be analyzed in a context of capped budgets and resources rendered even more severe as a consequence of the depreciation of the Euro (the currency in which the ESA Space and Earth sciences contributions are paid to ISSI) with respect to the Swiss Franc (the currency mostly used to pay ISSI expenditures). In that context, as mentioned in last year’s report, ISSI started an in depth reflection on its future strategy in ISSI Annual Report 2010 | 2011 From the Directors view also of presenting in 2012 its multi-annual budget request to the Swiss Space Office and to ESA.
Load more

Recommended publications
  • Martian Crater Morphology
    ANALYSIS OF THE DEPTH-DIAMETER RELATIONSHIP OF MARTIAN CRATERS A Capstone Experience Thesis Presented by Jared Howenstine Completion Date: May 2006 Approved By: Professor M. Darby Dyar, Astronomy Professor Christopher Condit, Geology Professor Judith Young, Astronomy Abstract Title: Analysis of the Depth-Diameter Relationship of Martian Craters Author: Jared Howenstine, Astronomy Approved By: Judith Young, Astronomy Approved By: M. Darby Dyar, Astronomy Approved By: Christopher Condit, Geology CE Type: Departmental Honors Project Using a gridded version of maritan topography with the computer program Gridview, this project studied the depth-diameter relationship of martian impact craters. The work encompasses 361 profiles of impacts with diameters larger than 15 kilometers and is a continuation of work that was started at the Lunar and Planetary Institute in Houston, Texas under the guidance of Dr. Walter S. Keifer. Using the most ‘pristine,’ or deepest craters in the data a depth-diameter relationship was determined: d = 0.610D 0.327 , where d is the depth of the crater and D is the diameter of the crater, both in kilometers. This relationship can then be used to estimate the theoretical depth of any impact radius, and therefore can be used to estimate the pristine shape of the crater. With a depth-diameter ratio for a particular crater, the measured depth can then be compared to this theoretical value and an estimate of the amount of material within the crater, or fill, can then be calculated. The data includes 140 named impact craters, 3 basins, and 218 other impacts. The named data encompasses all named impact structures of greater than 100 kilometers in diameter.
    [Show full text]
  • Highlights and Discoveries from the Chandra X-Ray Observatory1
    Highlights and Discoveries from the Chandra X-ray Observatory1 H Tananbaum1, M C Weisskopf2, W Tucker1, B Wilkes1 and P Edmonds1 1Smithsonian Astrophysical Observatory, 60 Garden Street, Cambridge, MA 02138. 2 NASA/Marshall Space Flight Center, ZP12, 320 Sparkman Drive, Huntsville, AL 35805. Abstract. Within 40 years of the detection of the first extrasolar X-ray source in 1962, NASA’s Chandra X-ray Observatory has achieved an increase in sensitivity of 10 orders of magnitude, comparable to the gain in going from naked-eye observations to the most powerful optical telescopes over the past 400 years. Chandra is unique in its capabilities for producing sub-arcsecond X-ray images with 100-200 eV energy resolution for energies in the range 0.08<E<10 keV, locating X-ray sources to high precision, detecting extremely faint sources, and obtaining high resolution spectra of selected cosmic phenomena. The extended Chandra mission provides a long observing baseline with stable and well-calibrated instruments, enabling temporal studies over time-scales from milliseconds to years. In this report we present a selection of highlights that illustrate how observations using Chandra, sometimes alone, but often in conjunction with other telescopes, have deepened, and in some instances revolutionized, our understanding of topics as diverse as protoplanetary nebulae; massive stars; supernova explosions; pulsar wind nebulae; the superfluid interior of neutron stars; accretion flows around black holes; the growth of supermassive black holes and their role in the regulation of star formation and growth of galaxies; impacts of collisions, mergers, and feedback on growth and evolution of groups and clusters of galaxies; and properties of dark matter and dark energy.
    [Show full text]
  • Orbital Evidence for More Widespread Carbonate- 10.1002/2015JE004972 Bearing Rocks on Mars Key Point: James J
    PUBLICATIONS Journal of Geophysical Research: Planets RESEARCH ARTICLE Orbital evidence for more widespread carbonate- 10.1002/2015JE004972 bearing rocks on Mars Key Point: James J. Wray1, Scott L. Murchie2, Janice L. Bishop3, Bethany L. Ehlmann4, Ralph E. Milliken5, • Carbonates coexist with phyllosili- 1 2 6 cates in exhumed Noachian rocks in Mary Beth Wilhelm , Kimberly D. Seelos , and Matthew Chojnacki several regions of Mars 1School of Earth and Atmospheric Sciences, Georgia Institute of Technology, Atlanta, Georgia, USA, 2The Johns Hopkins University/Applied Physics Laboratory, Laurel, Maryland, USA, 3SETI Institute, Mountain View, California, USA, 4Division of Geological and Planetary Sciences, California Institute of Technology, Pasadena, California, USA, 5Department of Geological Sciences, Brown Correspondence to: University, Providence, Rhode Island, USA, 6Lunar and Planetary Laboratory, University of Arizona, Tucson, Arizona, USA J. J. Wray, [email protected] Abstract Carbonates are key minerals for understanding ancient Martian environments because they Citation: are indicators of potentially habitable, neutral-to-alkaline water and may be an important reservoir for Wray, J. J., S. L. Murchie, J. L. Bishop, paleoatmospheric CO2. Previous remote sensing studies have identified mostly Mg-rich carbonates, both in B. L. Ehlmann, R. E. Milliken, M. B. Wilhelm, Martian dust and in a Late Noachian rock unit circumferential to the Isidis basin. Here we report evidence for older K. D. Seelos, and M. Chojnacki (2016), Orbital evidence for more widespread Fe- and/or Ca-rich carbonates exposed from the subsurface by impact craters and troughs. These carbonates carbonate-bearing rocks on Mars, are found in and around the Huygens basin northwest of Hellas, in western Noachis Terra between the Argyre – J.
    [Show full text]
  • Arxiv:2003.06799V2 [Astro-Ph.EP] 6 Feb 2021
    Thomas Ruedas1,2 Doris Breuer2 Electrical and seismological structure of the martian mantle and the detectability of impact-generated anomalies final version 18 September 2020 published: Icarus 358, 114176 (2021) 1Museum für Naturkunde Berlin, Germany 2Institute of Planetary Research, German Aerospace Center (DLR), Berlin, Germany arXiv:2003.06799v2 [astro-ph.EP] 6 Feb 2021 The version of record is available at http://dx.doi.org/10.1016/j.icarus.2020.114176. This author pre-print version is shared under the Creative Commons Attribution Non-Commercial No Derivatives License (CC BY-NC-ND 4.0). Electrical and seismological structure of the martian mantle and the detectability of impact-generated anomalies Thomas Ruedas∗ Museum für Naturkunde Berlin, Germany Institute of Planetary Research, German Aerospace Center (DLR), Berlin, Germany Doris Breuer Institute of Planetary Research, German Aerospace Center (DLR), Berlin, Germany Highlights • Geophysical subsurface impact signatures are detectable under favorable conditions. • A combination of several methods will be necessary for basin identification. • Electromagnetic methods are most promising for investigating water concentrations. • Signatures hold information about impact melt dynamics. Mars, interior; Impact processes Abstract We derive synthetic electrical conductivity, seismic velocity, and density distributions from the results of martian mantle convection models affected by basin-forming meteorite impacts. The electrical conductivity features an intermediate minimum in the strongly depleted topmost mantle, sandwiched between higher conductivities in the lower crust and a smooth increase toward almost constant high values at depths greater than 400 km. The bulk sound speed increases mostly smoothly throughout the mantle, with only one marked change at the appearance of β-olivine near 1100 km depth.
    [Show full text]
  • Stsci Newsletter: 2011 Volume 028 Issue 02
    National Aeronautics and Space Administration Interacting Galaxies UGC 1810 and UGC 1813 Credit: NASA, ESA, and the Hubble Heritage Team (STScI/AURA) 2011 VOL 28 ISSUE 02 NEWSLETTER Space Telescope Science Institute We received a total of 1,007 proposals, after accounting for duplications Hubble Cycle 19 and withdrawals. Review process Proposal Selection Members of the international astronomical community review Hubble propos- als. Grouped in panels organized by science category, each panel has one or more “mirror” panels to enable transfer of proposals in order to avoid conflicts. In Cycle 19, the panels were divided into the categories of Planets, Stars, Stellar Rachel Somerville, [email protected], Claus Leitherer, [email protected], & Brett Populations and Interstellar Medium (ISM), Galaxies, Active Galactic Nuclei and Blacker, [email protected] the Inter-Galactic Medium (AGN/IGM), and Cosmology, for a total of 14 panels. One of these panels reviewed Regular Guest Observer, Archival, Theory, and Chronology SNAP proposals. The panel chairs also serve as members of the Time Allocation Committee hen the Cycle 19 Call for Proposals was released in December 2010, (TAC), which reviews Large and Archival Legacy proposals. In addition, there Hubble had already seen a full cycle of operation with the newly are three at-large TAC members, whose broad expertise allows them to review installed and repaired instruments calibrated and characterized. W proposals as needed, and to advise panels if the panelists feel they do not have The Advanced Camera for Surveys (ACS), Cosmic Origins Spectrograph (COS), the expertise to review a certain proposal. Fine Guidance Sensor (FGS), Space Telescope Imaging Spectrograph (STIS), and The process of selecting the panelists begins with the selection of the TAC Chair, Wide Field Camera 3 (WFC3) were all close to nominal operation and were avail- about six months prior to the proposal deadline.
    [Show full text]
  • The Cosmic Web! What Does Our Universe Look Like on the Largest Scale?
    Lecture III The Cosmic Web! what does our Universe look like on the largest scale? aurorasimionescu.wordpress.com/teaching “Large-scale structure” refers to spatial scales larger than single galaxies: superclusters, clusters, groups, filaments, walls, voids What structure is our own Galaxy embedded in? The Local Group What structure is our own Galaxy embedded in? The Virgo Supercluster: a ~ 60 Mpc flattened structure, centered on the Virgo Cluster; the Local Group is at the outskirts. We are falling towards Virgo with ~ 300 km/s, and will get there in about 10 - 15 Gyr What structure is our own Galaxy embedded in? The Laniakea Supercluster find locations where peculiar velocity flows diverge, rather than defining structures based on galaxy number overdensity R. Brent Tully et al. Nature 513, 71 (2014) Redshift surveys To map and quantify the LSS (and compare with theoretical predictions), we need redshift surveys: mapping the 3-D distribution of galaxies in space (2D position on the sky plus redshift used as distance indicator) The 2dF (2 degree Field) redshift survey done with the 3.9-m Anglo-Australian telescope from 1997-2002 – Redshifts of ~ 250,000 galaxies with B < 19.5 mag, covering 5% of the sky reaching to z ~ 0.3 The Sloan Digital Sky Survey (SDSS) done with a dedicated 2.5-m telescope at Apache Point Observatory in New Mexico – Multicolor imaging to r ~ 23 mag, and spectra of galaxies down to r < 17.5 mag, reaching to z ~ 0.7; final data release covers 35% of sky and spectra from 3 million objects The 2dF Galaxy Redshift Survey How do we quantify Large-Scale Structure? If galaxies are clustered, they are “correlated”.
    [Show full text]
  • Astrophysics in 2006 3
    ASTROPHYSICS IN 2006 Virginia Trimble1, Markus J. Aschwanden2, and Carl J. Hansen3 1 Department of Physics and Astronomy, University of California, Irvine, CA 92697-4575, Las Cumbres Observatory, Santa Barbara, CA: ([email protected]) 2 Lockheed Martin Advanced Technology Center, Solar and Astrophysics Laboratory, Organization ADBS, Building 252, 3251 Hanover Street, Palo Alto, CA 94304: ([email protected]) 3 JILA, Department of Astrophysical and Planetary Sciences, University of Colorado, Boulder CO 80309: ([email protected]) Received ... : accepted ... Abstract. The fastest pulsar and the slowest nova; the oldest galaxies and the youngest stars; the weirdest life forms and the commonest dwarfs; the highest energy particles and the lowest energy photons. These were some of the extremes of Astrophysics 2006. We attempt also to bring you updates on things of which there is currently only one (habitable planets, the Sun, and the universe) and others of which there are always many, like meteors and molecules, black holes and binaries. Keywords: cosmology: general, galaxies: general, ISM: general, stars: general, Sun: gen- eral, planets and satellites: general, astrobiology CONTENTS 1. Introduction 6 1.1 Up 6 1.2 Down 9 1.3 Around 10 2. Solar Physics 12 2.1 The solar interior 12 2.1.1 From neutrinos to neutralinos 12 2.1.2 Global helioseismology 12 2.1.3 Local helioseismology 12 2.1.4 Tachocline structure 13 arXiv:0705.1730v1 [astro-ph] 11 May 2007 2.1.5 Dynamo models 14 2.2 Photosphere 15 2.2.1 Solar radius and rotation 15 2.2.2 Distribution of magnetic fields 15 2.2.3 Magnetic flux emergence rate 15 2.2.4 Photospheric motion of magnetic fields 16 2.2.5 Faculae production 16 2.2.6 The photospheric boundary of magnetic fields 17 2.2.7 Flare prediction from photospheric fields 17 c 2008 Springer Science + Business Media.
    [Show full text]
  • Lick Observatory Records: Photographs UA.036.Ser.07
    http://oac.cdlib.org/findaid/ark:/13030/c81z4932 Online items available Lick Observatory Records: Photographs UA.036.Ser.07 Kate Dundon, Alix Norton, Maureen Carey, Christine Turk, Alex Moore University of California, Santa Cruz 2016 1156 High Street Santa Cruz 95064 [email protected] URL: http://guides.library.ucsc.edu/speccoll Lick Observatory Records: UA.036.Ser.07 1 Photographs UA.036.Ser.07 Contributing Institution: University of California, Santa Cruz Title: Lick Observatory Records: Photographs Creator: Lick Observatory Identifier/Call Number: UA.036.Ser.07 Physical Description: 101.62 Linear Feet127 boxes Date (inclusive): circa 1870-2002 Language of Material: English . https://n2t.net/ark:/38305/f19c6wg4 Conditions Governing Access Collection is open for research. Conditions Governing Use Property rights for this collection reside with the University of California. Literary rights, including copyright, are retained by the creators and their heirs. The publication or use of any work protected by copyright beyond that allowed by fair use for research or educational purposes requires written permission from the copyright owner. Responsibility for obtaining permissions, and for any use rests exclusively with the user. Preferred Citation Lick Observatory Records: Photographs. UA36 Ser.7. Special Collections and Archives, University Library, University of California, Santa Cruz. Alternative Format Available Images from this collection are available through UCSC Library Digital Collections. Historical note These photographs were produced or collected by Lick observatory staff and faculty, as well as UCSC Library personnel. Many of the early photographs of the major instruments and Observatory buildings were taken by Henry E. Matthews, who served as secretary to the Lick Trust during the planning and construction of the Observatory.
    [Show full text]
  • Galaxy Data Name Constell
    Galaxy Data name constell. quadvel km/s z type width ly starsDist. Satellite Milky Way many many 0 0.0000 SBbc 106K 200M 0 M31 Andromeda NQ1 -301 -0.0010 SA 220K 1T 2.54Mly M32 Andromeda NQ1 -200 -0.0007 cE2 Sat. 5K 2.49Mly M31 M110 Andromeda NQ1 -241 -0.0008 dE 15K 2.69M M31 NGC 404 Andromeda NQ1 -48 -0.0002 SA0 no 10M NGC 891 Andromeda NQ1 528 0.0018 SAb no 27.3M NGC 680 Aries NQ1 2928 0.0098 E pec no 123M NGC 772 Aries NQ1 2472 0.0082 SAb no 130M Segue 2 Aries NQ1 -40 -0.0001 dSph/GC?. 100 5E5 114Kly MW NGC 185 Cassiopeia NQ1 -185 -0.0006dSph/E3 no 2.05Mly M31 Dwingeloo 1 Cassiopeia NQ1 110 0.0004 SBcd 25K 10Mly Dwingeloo 2 Cassiopeia NQ1 94 0.0003Iam no 10Mly Maffei 1 Cassiopeia NQ1 66 0.0002 S0pec E3 75K 9.8Mly Maffei 2 Cassiopeia NQ1 -17 -0.0001 SABbc 25K 9.8Mly IC 1613 Cetus NQ1 -234 -0.0008Irr 10K 2.4M M77 Cetus NQ1 1177 0.0039 SABd 95K 40M NGC 247 Cetus NQ1 0 0.0000SABd 50K 11.1M NGC 908 Cetus NQ1 1509 0.0050Sc 105K 60M NGC 936 Cetus NQ1 1430 0.0048S0 90K 75M NGC 1023 Perseus NQ1 637 0.0021 S0 90K 36M NGC 1058 Perseus NQ1 529 0.0018 SAc no 27.4M NGC 1263 Perseus NQ1 5753 0.0192SB0 no 250M NGC 1275 Perseus NQ1 5264 0.0175cD no 222M M74 Pisces NQ1 857 0.0029 SAc 75K 30M NGC 488 Pisces NQ1 2272 0.0076Sb 145K 95M M33 Triangulum NQ1 -179 -0.0006 SA 60K 40B 2.73Mly NGC 672 Triangulum NQ1 429 0.0014 SBcd no 16M NGC 784 Triangulum NQ1 0 0.0000 SBdm no 26.6M NGC 925 Triangulum NQ1 553 0.0018 SBdm no 30.3M IC 342 Camelopardalis NQ2 31 0.0001 SABcd 50K 10.7Mly NGC 1560 Camelopardalis NQ2 -36 -0.0001Sacd 35K 10Mly NGC 1569 Camelopardalis NQ2 -104 -0.0003Ibm 5K 11Mly NGC 2366 Camelopardalis NQ2 80 0.0003Ibm 30K 10M NGC 2403 Camelopardalis NQ2 131 0.0004Ibm no 8M NGC 2655 Camelopardalis NQ2 1400 0.0047 SABa no 63M Page 1 2/28/2020 Galaxy Data name constell.
    [Show full text]
  • Large Impact Crater Histories of Mars: the Effect of Different Model Crater Age Techniques ⇑ Stuart J
    Icarus 225 (2013) 173–184 Contents lists available at SciVerse ScienceDirect Icarus journal homepage: www.elsevier.com/locate/icarus Large impact crater histories of Mars: The effect of different model crater age techniques ⇑ Stuart J. Robbins a, , Brian M. Hynek a,b, Robert J. Lillis c, William F. Bottke d a Laboratory for Atmospheric and Space Physics, 3665 Discovery Drive, University of Colorado, Boulder, CO 80309, United States b Department of Geological Sciences, 3665 Discovery Drive, University of Colorado, Boulder, CO 80309, United States c UC Berkeley Space Sciences Laboratory, 7 Gauss Way, Berkeley, CA 94720, United States d Southwest Research Institute and NASA Lunar Science Institute, 1050 Walnut Street, Suite 300, Boulder, CO 80302, United States article info abstract Article history: Impact events that produce large craters primarily occurred early in the Solar System’s history because Received 25 June 2012 the largest bolides were remnants from planet ary formation .Determi ning when large impacts occurred Revised 6 February 2013 on a planetary surface such as Mars can yield clues to the flux of material in the early inner Solar System Accepted 25 March 2013 which, in turn, can constrain other planet ary processes such as the timing and magnitude of resur facing Available online 3 April 2013 and the history of the martian core dynamo. We have used a large, global planetary databas ein conjunc- tion with geomorpholog icmapping to identify craters superposed on the rims of 78 larger craters with Keywords: diameters D P 150 km on Mars, 78% of which have not been previously dated in this manner.
    [Show full text]
  • Mineralogic Mapping of Huygens Crater, Mars: a Transect of the Highlands Crust and Hellas Basin Rim
    Eighth International Conference on Mars (2014) 1038.pdf MINERALOGIC MAPPING OF HUYGENS CRATER, MARS: A TRANSECT OF THE HIGHLANDS CRUST AND HELLAS BASIN RIM. S. E. Ackiss, K. D. Seelos, and D. L. Buczkowski, Johns Hopkins Universi- ty Applied Physics Laboratory, Laurel, MD 20723 ([email protected]). Introduction: Huygens crater is a well preserved bearing minerals, and hydrated minerals like sulfates peak ring structure on Mars centered at 13.5°S, 55.5°E and phyllosilicates. Twelve CRISM multispectral map in the Noachian highlands between Terras Tyrrhena tiles (~230 m/pix and corrected to Lambert Albedo) and Sabaea (Fig. 1). With a diameter of ~450 km, it were used to understand regional mineralogic trends uplifted and exhumed Noachian crustal materials from and define unit contacts. Summary parameters [9] depths greater than 30 km, likely including Hellas rim showing spectral absorptions associated with the mafic material. minerals olivine (OLINDEX), low-calcium pyroxene In neighboring terrains, numerous small outcrops of (LCP, LCPINDEX), and high-calcium pyroxene (HCP, aqueously altered minerals, such as phyllosilicates, HCPINDEX) were examined. Summary parameters have been identified [1-2] as well as frequent expanses that highlight the presence of hydrated minerals were of mafic-bearing plains [3-6]. By mapping the distribu- also utilized. Specifically, the D2300 parameter aided tion of these different mineral types in and around in the identification of Fe/Mg phyllosilicate-bearing Huygens, we offer unique insight into the emplacement materials while the BD1900 parameter showed the and alteration history of the highlands crust. presence of other hydrated minerals. Contacts were drawn where data is present and believable (spatially coherent, or inconsistent with noise) at 1:250K scale and in some cases inferred by morphology across gaps in CRISM coverage.
    [Show full text]
  • Program Lists the Abstracts for All Submissions for GREAT Day(S) 2021
    the 15th annual virtual monday april 26, 2021 - friday april 30, 2021 geneseo recognizing excellence, achievement, and talent th 2021 Geneseo Recognizing Excellence Achievement and Talent Day • 15 Annual Welcome to SUNY Geneseo’s Fifteenth Annual GREAT Day(s)! Geneseo Recognizing Excellence, Achievement & Talent Day is a college-wide symposium celebrating the creative and scholarly endeavors of our students. In addition to recognizing the achievements of our students, the purpose of GREAT Day is to help foster academic excellence, encourage professional development, and build connections within the community. http://www.geneseo.edu/great_day This program lists the abstracts for all submissions for GREAT Day(s) 2021. Due to the COVID-19 pandemic, GREAT Day(s) 2021 is happening virtually and will be held during the week of April 26th – April 30th. The keynote address by Dr. Adam Frank will be held synchronously on Wednesday, April 28th at 2:30 PM. Scholarly and creative projects in a variety of formats will be available for viewing beginning April 26th. To view presentations, check the Virtual Program on the GREAT Day webpage at: http://www.geneseo.edu/great_day GREAT Day often falls on or near Earth Day, which is held on April 22nd each year. In recognition of this, presentations that have been self- identified by students as promoting sustainability are designated by a leaf symbol - - in this program. Throughout the day, when you post about GREAT Day(s) on social media use #WeAreGREAT to be featured on GREAT Day social media! GreatDayGeneseo @GeneseoGREATDay geneseo.edu/great_day 2 2021 Geneseo Recognizing Excellence Achievement and Talent Day • 15th Annual Honors TABLE OF CONTENTS Program reflects updates as of April 25, 2021 GREAT Day Honors ...................................................................................................................
    [Show full text]