Your search keyword '"W. A. Delamere"' showing total 28 results

1. hical—The HiRISE radiometric calibration software developed within the ISIS3 planetary image processing suite

Author

Kris J. Becker, Moses P. Milazzo, W. Alan Delamere, Kenneth E. Herkenhoff, Eric M. Eliason, Patrick S. Russell, Laszlo P. Keszthelyi, and Alfred S. McEwen

Published

2022

2. Color imaging of Mars by the High Resolution Imaging Science Experiment (HiRISE)

Author

Livio L. Tornabene, Moses Milazzo, W. Alan Delamere, Alfred S. McEwen, Sarah Mattson, Kris J. Becker, Michael T. Mellon, James W. Bergstrom, Dennis Gallagher, Patrick Russell, Nicolas Thomas, Eric M. Eliason, Nathan T. Bridges, Kenneth E. Herkenhoff, Laszlo P. Keszthelyi, and G. McArthur

Subjects

Space and Planetary Science, Multispectral image, High spatial resolution, Hyperspectral imaging, Astronomy and Astrophysics, Spectral bands, Mars Exploration Program, Color imaging, High resolution imaging, Geology, CRISM, Remote sensing

Abstract

HiRISE has been producing a large number of scientifically useful color products of Mars and other planetary objects. The three broad spectral bands, coupled with the highly sensitive 14 bit detectors and time delay integration, enable detection of subtle color differences. The very high spatial resolution of HiRISE can augment the mineralogic interpretations based on multispectral (THEMIS) and hyperspectral datasets (TES, OMEGA and CRISM) and thereby enable detailed geologic and stratigraphic interpretations at meter scales. In addition to providing some examples of color images and their interpretation, we describe the processing techniques used to produce them and note some of the minor artifacts in the output. We also provide an example of how HiRISE color products can be effectively used to expand mineral and lithologic mapping provided by CRISM data products that are backed by other spectral datasets. The utility of high quality color data for understanding geologic processes on Mars has been one of the major successes of HiRISE.

Published

2010

3. The High Resolution Imaging Science Experiment (HiRISE) during MRO’s Primary Science Phase (PSP)

Author

Sarah Mattson, Maria E. Banks, Alfred S. McEwen, Donald G. Deardorff, G. McArthur, T. Forrester, Eric M. Eliason, Robert A. King, Steven W. Squyres, Bob Kanefsky, A. Fennema, Chris H. Okubo, Colin M. Dundas, John A. Grant, Edward Bortolini, M. L. Searls, A. K. Boyd, Richard Leis, Charlie Van Houten, Sara Martínez-Alonso, Laszlo P. Keszthelyi, Jeffrey Lasco, Eldar Noe Dobrea, K. J. Kolb, Shane Byrne, Bradley J. Thomson, Bradford Castalia, Timothy Spriggs, Yisrael Espinoza, James W. Bergstrom, Frank C. Chuang, A. T. Polit, Alaina DeJong, Steven Tarr, Ross A. Beyer, A. Lefort, R. Heyd, Candice Hansen, Andrea J. Philippoff, Albert Ortiz, John P. Grotzinger, Tahirih Motazedian, W. Alan Delamere, J. L. Griffes, Kris J. Becker, Nathan T. Bridges, Moses Milazzo, Dean Jones, Circe Verba, Patrick Russell, Catherine M. Weitz, N. Baugh, Joannah M. Metz, Virginia C. Gulick, Randolph L. Kirk, Joseph Plassmann, Windy L. Jaeger, Paul E. Geissler, Kenneth E. Herkenhoff, Livio L. Tornabene, Ingrid Daubar, Kathryn E. Fishbaugh, Michael T. Mellon, Nicolas Thomas, Larry S. Crumpler, Ralph E. Milliken, C. Schaller, Kevin W. Lewis, James J. Wray, and Alix K. Davatzes

Subjects

geography, geography.geographical_feature_category, Lava, Bedrock, Noachian, Pyroclastic rock, Astronomy and Astrophysics, Mars Exploration Program, Columnar jointing, Impact crater, Stratigraphy, Space and Planetary Science, Geomorphology, Geology, Remote sensing

Abstract

The High Resolution Imaging Science Experiment (HiRISE) on the Mars Reconnaissance Orbiter (MRO) acquired 8 terapixels of data in 9137 images of Mars between October 2006 and December 2008, covering ~0.55% of the surface. Images are typically 5–6 km wide with 3-color coverage over the central 20% of the swath, and their scales usually range from 25 to 60 cm/pixel. Nine hundred and sixty stereo pairs were acquired and more than 50 digital terrain models (DTMs) completed; these data have led to some of the most significant science results. New methods to measure and correct distortions due to pointing jitter facilitate topographic and change-detection studies at sub-meter scales. Recent results address Noachian bedrock stratigraphy, fluvially deposited fans in craters and in or near Valles Marineris, groundwater flow in fractures and porous media, quasi-periodic layering in polar and non-polar deposits, tectonic history of west Candor Chasma, geometry of clay-rich deposits near and within Mawrth Vallis, dynamics of flood lavas in the Cerberus Palus region, evidence for pyroclastic deposits, columnar jointing in lava flows, recent collapse pits, evidence for water in well-preserved impact craters, newly discovered large rayed craters, and glacial and periglacial processes. Of particular interest are ongoing processes such as those driven by the wind, impact cratering, avalanches of dust and/or frost, relatively bright deposits on steep gullied slopes, and the dynamic seasonal processes over polar regions. HiRISE has acquired hundreds of large images of past, present and potential future landing sites and has contributed to scientific and engineering studies of those sites. Warming the focal-plane electronics prior to imaging has mitigated an instrument anomaly that produces bad data under cold operating conditions.

Published

2010

4. A Closer Look at Water-Related Geologic Activity on Mars

Author

K. J. Kolb, Eric M. Eliason, Steven W. Squyres, Candice Hansen, J. L. Griffes, Scott L. Murchie, James J. Wray, Bradley J. Thomson, Lajos Keszthelyi, Patrick Russell, Michael T. Mellon, Shane Byrne, Frank C. Chuang, Nicolas Thomas, Kathryn E. Fishbaugh, Alexandra K. Davatzes, R. L. Kirk, Frank P. Seelos, Kimberly D. Seelos, M. P. Milazzo, Nathan T. Bridges, Kenneth E. Herkenhoff, Alfred S. McEwen, Catherine M. Weitz, John A. Grant, Virginia C. Gulick, Chris H. Okubo, Livio L. Tornabene, Maria E. Banks, Colin M. Dundas, Sara Martínez-Alonso, Windy L. Jaeger, and W. A. Delamere

Subjects

Geological Phenomena, geography, Multidisciplinary, geography.geographical_feature_category, Extraterrestrial Environment, Water on Mars, Landform, Earth science, Mars, Water, Fluvial, Geology, Mars Exploration Program, Snow, law.invention, Orbiter, Impact crater, law, Ravine

Abstract

Water has supposedly marked the surface of Mars and produced characteristic landforms. To understand the history of water on Mars, we take a close look at key locations with the High-Resolution Imaging Science Experiment on board the Mars Reconnaissance Orbiter, reaching fine spatial scales of 25 to 32 centimeters per pixel. Boulders ranging up to approximately 2 meters in diameter are ubiquitous in the middle to high latitudes, which include deposits previously interpreted as finegrained ocean sediments or dusty snow. Bright gully deposits identify six locations with very recent activity, but these lie on steep (20 degrees to 35 degrees) slopes where dry mass wasting could occur. Thus, we cannot confirm the reality of ancient oceans or water in active gullies but do see evidence of fluvial modification of geologically recent mid-latitude gullies and equatorial impact craters.

Published

2007

5. The internal structure of Jupiter family cometary nuclei from Deep Impact observations: The 'talps' or 'layered pile' model

Author

Jochen Kissel, Jian-Yang Li, Tony L. Farnham, J. Veverka, Michael J. S. Belton, Olivier Groussin, W. Alan Delamere, Lucy A. McFadden, Karen J. Meech, Michael F. A'Hearn, Peter H. Schultz, Jessica M. Sunshine, Peter C. Thomas, C. M. Lisse, and Lori M. Feaga

Subjects

Physics, ICARUS, education.field_of_study, Population, Comet, Astronomy, Astronomy and Astrophysics, Astrophysics, Astron, Space and Planetary Science, Neptune, Planet, Protostar, education, Pile

Abstract

We consider the hypothesis that the layering observed on the surface of Comet 9P/Tempel 1 from the Deep Impact spacecraft and identified on other comet nuclei imaged by spacecraft (i.e., 19P/Borrelly and 81P/Wild 2) is ubiquitous on Jupiter family cometary nuclei and is an essential element of their internal structure. The observational characteristics of the layers on 9P/Tempel 1 are detailed and considered in the context of current theories of the accumulation and dynamical evolution of cometary nuclei. The works of Donn [Donn, B.D., 1990. Astron. Astrophys. 235, 441–446], Sirono and Greenberg [Sirono, S.-I., Greenberg, J.M., 2000. Icarus 145, 230–238] and the experiments of Wurm et al. [Wurm, G., Paraskov, G., Krauss, O., 2005. Icarus 178, 253–263] on the collision physics of porous aggregate bodies are used as basis for a conceptual model of the formation of layers. Our hypothesis is found to have implications for the place of origin of the JFCs and their subsequent dynamical history. Models of fragmentation and rubble pile building in the Kuiper belt in a period of collisional activity (e.g., [Kenyon, S.J., Luu, J.X., 1998. Astron. J. 115, 2136–2160; 1999a. Astron. J. 118, 1101–1119; 1999b. Astrophys. J. 526, 465–470; Farinella, P., Davis, D.R., Stern, S.A., 2000. In: Mannings, V., Boss, A.P., Russell, S.S. (Eds.), Protostars and Planets IV. Univ. of Arizona Press, Tucson, pp. 1255–1282; Durda, D.D., Stern, S.J., 2000. Icarus 145, 220–229]) following the formation of Neptune appear to be in conflict with the observed properties of the layers and irreconcilable with the hypothesis. Long-term residence in the scattered disk [Duncan, M.J., Levison, H.F., 1997. Science 276, 1670–1672; Duncan, M., Levison, H., Dones, L., 2004. In: Festou, M., Keller, H.U., Weaver, H.A. (Eds.), Comets II. Univ. of Arizona Press, Tucson, pp. 193–204] and/or a change in fragmentation outcome modeling may explain the long-term persistence of primordial layers. In any event, the existence of layers places constraints on the environment seen by the population of objects from which the Jupiter family comets originated. If correct, our hypothesis implies that the nuclei of Jupiter family comets are primordial remnants of the early agglomeration phase and that the physical structure of their interiors, except for the possible effects of compositional phase changes, is largely as it was when they were formed. We propose a new model for the interiors of Jupiter family cometary nuclei, called the talps or “layered pile” model, in which the interior consists of a core overlain by a pile of randomly stacked layers. We discuss how several cometary characteristics—layers, surface texture, indications of flow, compositional inhomogeneity, low bulk density low strength, propensity to split, etc., might be explained in terms of this model. Finally, we make some observational predictions and suggest goals for future space observations of these objects.

Published

2007

6. The shape, topography, and geology of Tempel 1 from Deep Impact observations

Author

J. Veverka, Jian-Yang Li, Peter H. Schultz, Jessica M. Sunshine, Dennis D. Wellnitz, Alan J. Hidy, Tony L. Farnham, Peter C. Thomas, Lucy A. McFadden, M. J. S. Belton, Karen J. Meech, Carey M. Lisse, Michael F. A'Hearn, Olivier Groussin, and W. Alan Delamere

Subjects

Solar System, Comet, Rubble, Astronomy and Astrophysics, engineering.material, Smooth surface, Astrobiology, Impact crater, Space and Planetary Science, Highly porous, engineering, Erosion, Layering, Geomorphology, Geology

Abstract

Deep Impact images of the nucleus of Comet Tempel 1 reveal pervasive layering, possible impact craters, flows with smooth upper surfaces, and erosional stripping of material. There are at least 3 layers 50–200 m thick that appear to extend deep into the nucleus, and several layers 1–20 m thick that parallel the surface and are being eroded laterally. Circular depressions show geographical variation in their forms and suggest differences in erosion rates or style over scales >1 km. The stratigraphic arrangement of these features suggests that the comet experienced substantial periods of little erosion. Smooth surfaces trending downslope suggest some form of eruption of materials from this highly porous object. The Deep Impact images show that the nucleus of Tempel 1 cannot be modeled simply as either an onion-layer or rubble pile structure.

Published

2007

7. Surface temperature of the nucleus of Comet 9P/Tempel 1

Author

Jian-Yang Li, W. A. Delamere, Lori M. Feaga, Tony L. Farnham, Jessica M. Sunshine, Olivier Groussin, Peter C. Thomas, Carey M. Lisse, Karen J. Meech, and Michael F. A'Hearn

Subjects

Physics, Effective radius, Spectrometer, business.industry, Comet, Infrared spectroscopy, Astronomy and Astrophysics, Astrophysics, Light curve, Spectral line, medicine.anatomical_structure, Optics, Space and Planetary Science, Comet nucleus, medicine, business, Nucleus

Abstract

The Deep Impact (DI) spacecraft encountered Comet 9P/Tempel 1 on July 4th, 2005 and observed it with several instruments. In particular, we obtained infrared spectra of the nucleus with the HRI-IR spectrometer in the wavelength range of 1.0–4.9 μm. The data were taken before impact, with a maximum resolution of ∼120 m per pixel at the time of observation. From these spectra, we derived the first directly observed temperature map of a comet nucleus. The surface temperature varied from 272 ± 7 to 336 ± 7 K on the sunlit hemisphere, matching the surface topography and incidence angle. The derived thermal inertia is low, most probably

Published

2007

8. The internal structure of Jupiter family cometary nuclei from Deep Impact observations: The 'talps' or 'layered pile' model

Author

Michael J.S. Belton, Peter Thomas, J. Veverka, Peter Schultz, Michael F. A'Hearn, Lori Feaga, Tony Farnham, Olivier Groussin, Jian-Yang Li, Casey Lisse, Lucy McFadden, Jessica Sunshine, Karen J. Meech, W. Alan Delamere, and Jochen Kissel

Subjects

Space and Planetary Science, Astronomy and Astrophysics

Published

2007

9. The shape, topography, and geology of Tempel 1 from Deep Impact observations

Author

Peter C. Thomas, J. Veverka, Michael J.S. Belton, Alan Hidy, Michael F. A'Hearn, T.L. Farnham, Olivier Groussin, Jian-Yang Li, Lucy A. McFadden, Jessica Sunshine, Dennis Wellnitz, Carey Lisse, Peter Schultz, Karen J. Meech, and W. Alan Delamere

Subjects

Space and Planetary Science, Astronomy and Astrophysics

Published

2007

10. Deep Impact: Excavating Comet Tempel 1

Author

H. J. Melosh, Donald Hampton, Peter H. Schultz, Olivier Groussin, Dennis D. Wellnitz, Jessica M. Sunshine, R. L. White, Michael F. A'Hearn, Don J. Lindler, M. W. Baca, Jian-Yang Li, Kenneth P. Klaasen, Peter C. Thomas, I. Busko, Carey M. Lisse, J. Veverka, Mark Desnoyer, James E. Richardson, C. A. Eberhardy, Carolyn M. Ernst, Lucy A. McFadden, Karen J. Meech, Steven M. Collins, C. J. Crockett, M. J. S. Belton, Tony L. Farnham, N. Mastrodemos, William M. Owen, Jochen Kissel, Donald K. Yeomans, W. A. Delamere, Lori M. Feaga, and Sergei I. Ipatov

Subjects

Gravity (chemistry), Multidisciplinary, Impact crater, Jupiter, Spectrum Analysis, Comet, Mineralogy, Meteoroids, Radius, Organic Chemicals, Fault scarp, Geomorphology, Geology

Abstract

Deep Impact collided with comet Tempel 1, excavating a crater controlled by gravity. The comet's outer layer is composed of 1- to 100-micrometer fine particles with negligible strength (1000 kelvins). A large increase in organic material occurred during and after the event, with smaller changes in carbon dioxide relative to water. On approach, the spacecraft observed frequent natural outbursts, a mean radius of 3.0 ± 0.1 kilometers, smooth and rough terrain, scarps, and impact craters. A thermal map indicates a surface in equilibrium with sunlight.

Published

2005

11. Exposed Water Ice Deposits on the Surface of Comet 9P/Tempel 1

Author

Peter H. Schultz, Dennis D. Wellnitz, M. J. S. Belton, H. J. Melosh, Jessica M. Sunshine, Donald Hampton, Carey M. Lisse, Jian-Yang Li, Tony L. Farnham, Mark Desnoyer, J. Veverka, Michael F. A'Hearn, Jochen Kissel, I. Busko, Kenneth P. Klaasen, Peter C. Thomas, W. A. Delamere, Lori M. Feaga, Olivier Groussin, Don J. Lindler, Lucy A. McFadden, Karen J. Meech, and Donald K. Yeomans

Subjects

Outgassing, Wavelength, Multidisciplinary, Spectrophotometry, Infrared, Chemistry, Ice, Comet, Mineralogy, Particle (ecology), Meteoroids, Water ice, Spectral line, Astrobiology

Abstract

We report the direct detection of solid water ice deposits exposed on the surface of comet 9P/Tempel 1, as observed by the Deep Impact mission. Three anomalously colored areas are shown to include water ice on the basis of their near-infrared spectra, which include diagnostic water ice absorptions at wavelengths of 1.5 and 2.0 micrometers. These absorptions are well modeled as a mixture of nearby non-ice regions and 3 to 6% water ice particles 10 to 50 micrometers in diameter. These particle sizes are larger than those ejected during the impact experiment, which suggests that the surface deposits are loose aggregates. The total area of exposed water ice is substantially less than that required to support the observed ambient outgassing from the comet, which likely has additional source regions below the surface.

Published

2006

12. Constraining the Dust Coma Properties of Comet C/Siding Spring (2013 A1) at Large Heliocentric Distances

Author

Nalin H. Samarasinha, Jian-Yang Li, Michael F. A'Hearn, Max Mutchler, Michael S. P. Kelley, W. Alan Delamere, Carey M. Lisse, and Tony L. Farnham

Subjects

Physics, Earth and Planetary Astrophysics (astro-ph.EP), Epoch (astronomy), media_common.quotation_subject, Comet, FOS: Physical sciences, Astronomy and Astrophysics, Coma (optics), Astrophysics, Radius, Mars Exploration Program, Position angle, Space and Planetary Science, Sky, Astrophysics - Earth and Planetary Astrophysics, Cosmic dust, media_common

Abstract

The close encounter of Comet C/2013 A1 (Siding Spring) with Mars on October 19, 2014 presented an extremely rare opportunity to obtain the first flyby quality data of the nucleus and inner coma of a dynamically new comet. However, the comet's dust tail potentially posed an impact hazard to those spacecraft. To characterize the comet at large heliocentric distances, study its long-term evolution, and provide critical inputs to hazard modeling, we imaged C/Siding Spring with the Hubble Space Telescope when the comet was at 4.58, 3.77, and 3.28 AU from the Sun. The dust production rate, parameterized by the quantity Af$\rho$, was 2500, 2100, and 1700 cm (5000-km radius aperture) for the three epochs, respectively. The color of the dust coma is 5.0$\pm$0.3$\%$/100 nm for the first two epochs, and 9.0$\pm$0.3$\%$/100 nm for the last epoch, and reddens with increasing cometocentric distance out to ~3000 km from the nucleus. The spatial distribution and the temporal evolution of the dust color are most consistent with the existence of icy grains in the coma. Two jet-like dust features appear in the north-northwest and southeast directions projected in the sky plane. Within each epoch of 1-2 hour duration, no temporal variations were observed for either feature, but the PA of the southeastern feature varied between the three epochs by ~30$^\circ$. The dust feature morphology suggests two possible orientations for the rotational pole of the nucleus, (RA, Dec) = (295$^\circ\pm$5$^\circ$, +43$^\circ\pm$2$^\circ$) and (190$^\circ\pm$10$^\circ$, 50$^\circ\pm$5$^\circ$), or their diametrically opposite orientations., Comment: 14 pages, 4 figures, 1 table

Published

2014

13. Ultrahigh resolution topographic mapping of Mars with MRO HiRISE stereo images: Meter-scale slopes of candidate Phoenix landing sites

Author

Mark R. Rosiek, Trent M. Hare, Elpitha Howington-Kraus, R. King, Randolph L. Kirk, D. T. P. Gallagher, Laszlo P. Keszthelyi, Paul E. Geissler, Jeffery A. Anderson, I.M. Holmberg, Eric M. Eliason, W. A. Delamere, Brent A. Archinal, Alfred S. McEwen, Bonnie L. Redding, Donna M. Galuszka, D. Cook, Kris J. Becker, and J.D. Chapel

Subjects

Meridiani Planum, Atmospheric Science, Soil Science, Aquatic Science, Oceanography, law.invention, Orbiter, Geochemistry and Petrology, law, Earth and Planetary Sciences (miscellaneous), Calibration, Earth-Surface Processes, Water Science and Technology, Remote sensing, Ecology, Pixel, Paleontology, Forestry, Mars Exploration Program, Geodesy, Subpixel rendering, Geophysics, Photogrammetry, Space and Planetary Science, Scale (map), Geology

Abstract

[1] The objectives of this paper are twofold: first, to report our estimates of the meter-to-decameter-scale topography and slopes of candidate landing sites for the Phoenix mission, based on analysis of Mars Global Surveyor (MGS) Mars Orbiter Camera (MOC) images with a typical pixel scale of 3 m and Mars Reconnaissance Orbiter (MRO) High Resolution Imaging Science Experiment (HiRISE) images at 0.3 m pixel−1 and, second, to document in detail the geometric calibration, software, and procedures on which the photogrammetric analysis of HiRISE data is based. A combination of optical design modeling, laboratory observations, star images, and Mars images form the basis for software in the U.S. Geological Survey Integrated Software for Imagers and Spectrometers (ISIS) 3 system that corrects the images for a variety of distortions with single-pixel or subpixel accuracy. Corrected images are analyzed in the commercial photogrammetric software SOCET SET (® BAE Systems), yielding digital topographic models (DTMs) with a grid spacing of 1 m (3–4 pixels) that require minimal interactive editing. Photoclinometry yields DTMs with single-pixel grid spacing. Slopes from MOC and HiRISE are comparable throughout the latitude zone of interest and compare favorably with those where past missions have landed successfully; only the Mars Exploration Rover (MER) B site in Meridiani Planum is smoother. MOC results at multiple locations have root-mean-square (RMS) bidirectional slopes of 0.8–4.5° at baselines of 3–10 m. HiRISE stereopairs (one per final candidate site and one in the former site) yield 1.8–2.8° slopes at 1-m baseline. Slopes at 1 m from photoclinometry are also in the range 2–3° after correction for image blur. Slopes exceeding the 16° Phoenix safety limit are extremely rare.

Published

2008

14. SEASONAL EVOLUTION ON THE NUCLEUS OF COMET C/2013 A1 (SIDING SPRING)

Author

Jian-Yang Li, Tony L. Farnham, D. Bodewits, Michael F. A'Hearn, Max Mutchler, Nalin H. Samarasinha, Michael S. P. Kelley, Carey M. Lisse, and W. Alan Delamere

Subjects

Earth and Planetary Astrophysics (astro-ph.EP), Physics, Rotation period, Brightness, Solar System, 010504 meteorology & atmospheric sciences, Comet, FOS: Physical sciences, Astronomy and Astrophysics, Coma (optics), Radius, Astrophysics, Spring (mathematics), 01 natural sciences, Phase angle (astronomy), Space and Planetary Science, 0103 physical sciences, 010303 astronomy & astrophysics, Astrophysics - Earth and Planetary Astrophysics, 0105 earth and related environmental sciences

Abstract

We observed Comet C/Siding Spring using the Hubble Space Telescope (HST) during its close approach to Mars. The high spatial resolution images obtained through the F689M, F775W, and F845M filters reveal the characteristics of the dust coma. The dust production rate of C/Siding Spring, quantified by $Af\rho$, is 590$\pm$30, 640$\pm$30, and 670$\pm$30 cm in a 420 km-radius aperture at 38$^\circ$ solar phase angle through the three filters, respectively, consistent with other observations at similar time and geometry, and with model predictions based on earlier measurements. The dust expansion velocity is ~150-250 m s$^{-1}$ for micron-sized dust grains, similar to the speeds found for other comets. The coma has a color slope of (5.5$\pm$1.5)%/100 nm between 689 and 845 nm, similar to previous HST measurements at comparable aperture sizes, consistent with the lack of color dependence on heliocentric distance for almost all previously observed active comets. The rotational period of the nucleus of C/Siding Spring is determined from the periodic brightness variation in the coma to be 8.00$\pm$0.08 hours, with no excited rotational state detected. The dust coma shows a broad and diffuse fan-shaped feature in the sunward direction, with no temporal morphological variation observed. The projected orientation of the dust feature, combined with the previous analysis of the coma morphology and other characteristics, suggests secular activity evolution of the comet in its inner solar system passage as one previously observed active region turns off whereas new regions exposed to sunlight due to seasonal illumination change., Comment: Accepted by ApJ Lett

Published

2016

15. Mars Reconnaissance Orbiter's High Resolution Imaging Science Experiment (HiRISE)

Author

Eric M. Eliason, W. Alan Delamere, James W. Bergstrom, Randolph L. Kirk, Steven W. Squyres, Michael T. Mellon, Alfred S. McEwen, Nicolas Thomas, John A. Grant, Laszlo P. Keszthelyi, Kenneth E. Herkenhoff, Catherine M. Weitz, Candice Hansen, Virginia C. Gulick, and Nathan T. Bridges

Subjects

Atmospheric Science, Ecology, Water on Mars, Paleontology, Soil Science, Forestry, Mars Exploration Program, Aquatic Science, Oceanography, Exploration of Mars, law.invention, CRISM, Orbiter, Geophysics, Space and Planetary Science, Geochemistry and Petrology, law, Martian surface, Earth and Planetary Sciences (miscellaneous), Thermal Emission Imaging System, High Resolution Stereo Camera, Geology, Earth-Surface Processes, Water Science and Technology, Remote sensing

Abstract

[1] The HiRISE camera features a 0.5 m diameter primary mirror, 12 m effective focal length, and a focal plane system that can acquire images containing up to 28 Gb (gigabits) of data in as little as 6 seconds. HiRISE will provide detailed images (0.25 to 1.3 m/pixel) covering ∼1% of the Martian surface during the 2-year Primary Science Phase (PSP) beginning November 2006. Most images will include color data covering 20% of the potential field of view. A top priority is to acquire ∼1000 stereo pairs and apply precision geometric corrections to enable topographic measurements to better than 25 cm vertical precision. We expect to return more than 12 Tb of HiRISE data during the 2-year PSP, and use pixel binning, conversion from 14 to 8 bit values, and a lossless compression system to increase coverage. HiRISE images are acquired via 14 CCD detectors, each with 2 output channels, and with multiple choices for pixel binning and number of Time Delay and Integration lines. HiRISE will support Mars exploration by locating and characterizing past, present, and future landing sites, unsuccessful landing sites, and past and potentially future rover traverses. We will investigate cratering, volcanism, tectonism, hydrology, sedimentary processes, stratigraphy, aeolian processes, mass wasting, landscape evolution, seasonal processes, climate change, spectrophotometry, glacial and periglacial processes, polar geology, and regolith properties. An Internet Web site (HiWeb) will enable anyone in the world to suggest HiRISE targets on Mars and to easily locate, view, and download HiRISE data products.

Published

2007

16. Recent advances in short-wavelength AR coatings for thinned CCDs

Author

M. Serra, Morley M. Blouke, T. M. Duncan, R. Reed, Michael D. Nelson, Brian G. Higgins, Gary L. Womack, W. Alan Delamere, Andre Knoesen, and James S. Flores

Subjects

Magnesium fluoride, Materials science, Silicon, business.industry, Optical engineering, chemistry.chemical_element, engineering.material, chemistry.chemical_compound, Optics, Coating, chemistry, engineering, Optoelectronics, Quantum efficiency, business, Absorption (electromagnetic radiation), Layer (electronics), Refractive index

Abstract

This paper discusses the development of two materials as AR coatings for thinned backilluminated charge-coupled devices. The first material is the heavy metal oxide Ta205 deposited as a spin on layer using sol-gel technology. The second material is Si3N4. Both these films have the high index of refraction and low absorption coefficients needed to produce good AR coatings in the near UV down to 300 nm. The goal of the program was to produce a coating which would yield devices with quantum efficiencies of greater than 50 at 300 nm. Both these materials satisfy this goal. Data on test devices will be reported. . 1.© (1992) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published

1992

17. Advances in frame transfer devices

Author

Wayne W. Frame, W. Alan Delamere, Morley M. Blouke, and James S. Flores

Subjects

Physics, Pixel, business.industry, Transfer (computing), Optical engineering, Frame (networking), Electrical engineering, Electron, business, Charge transfer efficiency, Noise (electronics), Signal

Abstract

The development of the 20482 CCD for a second generation Space Telescope instrument has resulted devices with very few defects dark currents of less than 12 electrons/pixel/hour at 80 readout noise levels of less than 4 electrons rms and excellent charge transfer efficiency at signal levels of less than 10 electrons. A second generation of devices that capitalize on these characteristics have been produced and are currently in test. Faster frame transfer devices that preserve these characteristics have been designed that include tn-directional taps in the serial register. 1.© (1992) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published

1992

18. A model for intensity profiles of dust jets near the nucleus of comet Halley

Author

Walter F. Huebner, W. A. Delamere, Daniel C. Boice, Fred L. Whipple, and Harold J. Reitsema

Subjects

Physics, Comet, Halley's Comet, Astronomy, Astronomy and Astrophysics, Conical surface, Radius, Astrophysics, Curvature, Computational astrophysics, Interplanetary dust cloud, Space and Planetary Science, Astrophysics::Earth and Planetary Astrophysics, Cosmic dust

Abstract

The Giotto spacecraft's Halley Multicolor Camera images have been used to derive intensity profiles of the jetlike dust features that are associated with active regions of the Comet Halley nucleus. An intensity profile's asymptotic behavior at a radius greater than 100 km from the nucleus can be seen as arising from a source located at a hypothetical point below the active source region. Several source distributions are investigated. The extended source model considers divergent dust flow from an active area of arbitrary shape. It is concluded that the surface is neither smooth nor homogeneous, but must instead be characterized by varying curvature and roughness in order to reflect the observed conical dust flow.

Published

1988

19. Dust distribution in the inner coma of comet Halley: Comparison with models

Author

Harold J. Reitsema, Walter F. Huebner, Daniel C. Boice, Fred L. Whipple, W. A. Delamere, and A.R. Williams

Subjects

Physics, Brightness, Comet tail, Halley's Comet, Comet, Astronomy, Astronomy and Astrophysics, Coma (optics), Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, Radial distribution, Space and Planetary Science, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Astrophysics::Galaxy Astrophysics, Cosmic dust

Abstract

Giotto observations of the inner coma of Comet Halley are analyzed, focusing on the dust distribution and the gas-dust interaction. Differences between the azimuthal and radial dust distributions are discussed. The profiles of dust jets suggest that gas emission is localized in the same source areas that give rise to dust. The observational results are compared with models of cometary dust and suggestions are made for improving the models to give better agreement with observations.

Published

1989

20. Identification of surface features on comet P/Halley

Author

H. U. Keller, Harold J. Reitsema, and W. A. Delamere

Subjects

Physics, Surface (mathematics), Atmospheric Science, Axial ratio, business.industry, Coordinate system, Halley's Comet, Comet, Aerospace Engineering, Astronomy and Astrophysics, Geometry, Moment of inertia, Ellipse, Center of gravity, Geophysics, Optics, Space and Planetary Science, General Earth and Planetary Sciences, business

Abstract

The Giotto Halley Multicolour Camera obtained images of P/Halley that resolved the nucleus, showing active regions and other features on the surface. At least twenty-one discrete bright features can be identified in the images, and eight distinct regions associated with morphological characteristics can be recognized. The projected limb is approximated with a two-to-one axial ratio ellipse, establishing a reference coordinate system for the body based on the center of gravity and moments of inertia of the profile. A catalog of surface features is presented giving size, shape and location in the reference coordinate system.

Published

1989

21. First Halley Multicolour Camera imaging results from Giotto

Author

C. B. Cosmovici, Fred L. Whipple, C. Arpigny, D. Malaise, P. Seige, S. Cazes, C. Jamar, Wolfgang Schmidt, H. U. Schmidt, M. Coradini, Cesare Barbieri, H. U. Keller, W. A. Delamere, W. F. Huebner, Klaus Wilhelm, Harold J. Reitsema, R. M. Bonnet, and David W. Hughes

Subjects

Physics, Multidisciplinary, Halley's Comet, Astronomy, Coma (optics), Albedo, complex mixtures, Dust emission

Abstract

The Giotto spacecraft's Halley Multicolor Camera imaging results have furnished flyby images that are centered on the brightest part of the inner coma; these show the silouette of a large, solid and irregularly shaped cometary nucleus and jetlike dust activity. The preliminary assessment of these data has yielded information on the dimensions and shape of the nucleus and dust emission activity. It is noted that only minor parts of the surface are active, with most of the surface being covered by a nonvolatile material. Dust jets dominate the inner coma, and are restricted to a subsolar hemisphere.

Published

1986

22. Tektronix Four Quadrant Readout 1024 x 1024 CCD Imager: First Test Results

Author

J. Orbock, F L. Yang, W. A. Delamere, and Morley M. Blouke

Subjects

Engineering, business.industry, Electronic engineering, Quadrant (instrument), business, Computer hardware, Star tracker

Abstract

The four quadrant CCD was developed to meet the reliability needs of future space programs that use large area CCDs. The 1024 2 format was selected as a precursor to the 2048 2 format. An experimental lot of 1024 2 CCDs was made in 1987 and a production lot was run in 1988 for the AXAF star tracker program. Excellent performance was obtained with the production lot and the four quadrant operation was demonstrated to work as predicted.

Published

1989

23. IMAPS: A High-Resolution, Echelle Spectrograph To Record Far-Ultraviolet Spectra Of Stars From Sounding Rockets

Author

George R. Carruthers, Paul Zucchino, M. Bottema, Edward B. Jenkins, Charles L. Joseph, W. A. Delamere, and D. Long

Subjects

Physics, Sounding rocket, business.product_category, business.industry, Astronomy, Grating, Astronomical spectroscopy, Interstellar medium, Wavelength, Optics, Rocket, business, Diffraction grating, Spectrograph

Abstract

A novel sounding rocket payload consisting of a slitless objective grating spectrograph with no transmission elements in the optical train (or detector) is described. This instrument, called the interstellar medium absorption profile spectrograph (IMAPS), is designed to provide continuous coverage over the wavelength range of 950-1150 A; it has an effective collecting area of about 4 sq cm and can record spectra of pointlike sources at a wavelength resolution of 0.004 A and with a sample interval of 0.002 A. The successful use of this instrument aboard a Black Brant rocket is described.

Published

1988

24. Comet P/Halley’s nucleus and its activity

Author

Walter F. Huebner, Werner Curdt, P. Seige, H. U. Schmidt, Cesare Barbieri, R. M. Bonnet, S. Cazes, R. Kramm, Nicolas Thomas, Claude Arpigny, Claude Jamar, Harold J. Reitsema, David W. Hughes, Wolfram Schmidt, H. U. Keller, K. Schmidt, M. Coradini, C. B. Cosmovici, W. A. Delamere, Klaus Wilhelm, D. Malaise, and Fred L. Whipple

Subjects

On board, Physics, medicine.anatomical_structure, Comet, Halley's Comet, medicine, Astronomy, Astrophysics, Nucleus, Cosmic dust

Abstract

The Halley Multicolour Camera on board ESA’s Giotto spacecraft observed the nucleus of comet P/Halley and its environment and returned more than 2000 images. The observations are summarized, their calibration is described, the status of the analysis and the results are discussed. Topographic features on the nuclear surface and areas of activity are identified. The optical thickness of the dust produced in jet-like features is estimated. The impact and constraints of the observations on cometary nucleus models are discussed.

Published

1988

25. High Resolution Imaging Systems For Spin-Stabilized Probe Spacecraft

Author

G. Edward Danielson, Michael C. Malin, and W. Alan Delamere

Subjects

Geography, Spacecraft, business.industry, Data editing, Optical engineering, Halley's Comet, Image processing, Aerospace engineering, business, Image resolution, Spin (aerodynamics), Space exploration, Simulation

Abstract

A novel design for a high-resolution imaging system which includes on-board data editing and optical navigation, suggests high quality images can be acquired from spin-stabilized spacecraft oriented towards high velocity, short duration planetary missions ("Probes"). The approach to designing imaging systems requires that mission objectives be met within the physical and fiscal constraints imposed by the spacecraft and mission design. Severe constraints imposed on a Comet Halley probe (for example, 57km/sec encounter velocity with a small, 10km diameter, object coupled with a great uncertainty in encounter time and distance, were overcome by innovative use of existing technology. Such designs suggest that 3-axis stabilization or non-spinning platforms are not necessary to acquire high resolution, high quality planetary images.© (1981) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

Published

1981

26. Partially-Inverted Operation Of The Tektronix 1024 X 1024 CCD

Author

J. Orbock, Morley M. Blouke, and W A. Delamere

Subjects

Engineering, Thermoelectric cooling, Photon, Optics, Image quality, business.industry, Clock rate, Wide dynamic range, Large format, business, Voltage, Dark current

Abstract

A partially- inverted mode of operation of the Tektronix 10242, 3 -phase CCD has been tested and characterized.In this mode, two of the three parallel phases are held in the inverted mode during integration while the third isheld in the non -inverted mode. This mode offers a compromise between the low dark current and low full wellcapacity of fully inverted operation, and the high full well and high dark current of non -inverted operation. 1. INTRODUCTION The Center for Solid State Imaging at Ball Aerospace is a research facility designed to test and characterizeCCD performance for various scientific applications. The Tektronix series of large format, high resolution [1] CCDimagers are presently being tested with the most emphasis being placed on the 10242, 3- phase, four -quadrantreadout devices. These devices are mounted in a liquid nitrogen cooled dewar camera system which is mounted toan optical bench. This system has the flexibility to drive virtually any CCD and parameters such as integrationtime, clock frequency, clock voltages, bias voltages, system gain, and device temperature are easily controlled.One of the most important parameters that affects CCD camera systems built for wide dynamic range perfor-mance is the dark current. Dark current arises from thermally generated carriers within the CCD, rather than thedesirable ones produced by incident photons from the image. The dark current contribution for long exposures atlow light levels, common in astronomy and other scientific applications, can have a significant effect on the qualityof the image if the dark current represents a large fraction of the output signal. To reduce the dark current to tol-erable levels, some method of cooling the device is generally required. Sophisticated and costly liquified gas dewarsare the most common methods of cooling CCD's where a large temperature differential or a very low temperatureis required. Thermoelectric coolers can be used where smaller temperature differentials are acceptable, however,this too adds cost and complexity to the overall system design.

Published

1989

27. Active polar region on the nucleus of comet halley

Author

Harold J. Reitsema, Fred L. Whipple, and W. A. Delamere

Subjects

Physics, Insolation, Brightness, Multidisciplinary, Halley's Comet, Comet, Astronomy, Rotation, Mantle (geology), Astrobiology, medicine.anatomical_structure, medicine, Polar, Nucleus

Abstract

The images of the nucleus of comet Halley returned by the Giotto spacecraft reveal a number of active regions on the surface, one of which is near the expected location of the rotation pole. This feature is larger and brighter than other source regions, suggesting that the mechanism that drives this source is also different. At this active region near the rotation pole, the sun was circumpolar for a significant portion of the solar encounter. Continuous insolation heated the nucleus to greater depths than in other areas, producing the broad, active polar region.

Published

1989

28. Observing and recording instantaneous images on ATM television monitors

Author

N. P. Patterson, Richard Tousey, and W. A. Delamere

Subjects

Brightness, Computer science, business.industry, Materials Science (miscellaneous), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Image intensifier, Industrial and Manufacturing Engineering, Particle detector, law.invention, Display device, Optics, law, Extreme ultraviolet, Business and International Management, business, Apollo Telescope Mount, Remote sensing

Abstract

A persistent image-converter device was utilized to make visible to the astronaut solar images that were isolated, instantaneous flashes on the ATM TV monitors. In addition, these instantaneous images, as well as normal TV images, were recorded with a Polaroid SX-70 camera for study by the astronauts.

Published

1977