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1. Mutual Orbit Orientations of Transneptunian Binaries

Author

Grundy, W. M, Noll, K. S, Roe, H. G, Buie, M. W, Porter, S. B, Parker, A. H, Nesvorny, D, Levison, H. F, Benecchi, S. D, Stephens, D. C, and Trujillo, C. A

Subjects
Astrophysics
Abstract

We present Keplerian orbit solutions for the mutual orbits of 17 transneptunian binary systems (TNBs). For ten of them, the orbit had not previously been known: 60458 2000 CM (sub 114), 119979 2002 WC (sub 19), 160091 2000 OL (sub 67), 160256 2002 PD (sub 149), 469514 2003 QA (sub 91), 469705 ǂKagara, 508788 2000 CQ (sub 114), 508869 2002 VT (sub 130), 1999 RT (sub 214), and 2002 XH (sub 91). Seven more are systems where the size, shape, and period of the orbit had been published, but new observations have now eliminated the sky plane mirror ambiguity in its orientation: 90482 Orcus, 120347 Salacia-Actaea, 1998 WW (sub 31), 1999 OJ (sub 4), 2000 QL (sub 251), 2001 XR (sub 254), and 2003 TJ (sub 58). The dynamical masses we obtain from TNB mutual orbits can be combined with estimates of the objects' sizes from thermal observations or stellar occultations to estimate their bulk densities. The ǂKagara system is currently undergoing mutual events in which one component casts its shadow upon the other and/or obstructs the view of the other. Such events provide valuable opportunities for further characterization of the system. Combining our new orbits with previously published orbits yields a sample of 35 binary orbits with known orientations that can provide important clues about the environment in which outer solar system planetesimals formed, as well as their subsequent evolutionary history. Among the relatively tight binaries, with semimajor axes less than about 5 percent of their Hill radii, prograde mutual orbits vastly outnumber retrograde orbits. This imbalance is not attributable to any known observational bias. We suggest that this distribution could be the signature of planetesimal formation through gravitational collapse of local density enhancements such as caused by the streaming instability. Wider binaries, with semimajor axes greater than 5 percent of their Hill radii, are somewhat more evenly distributed between prograde and retrograde orbits, but with mutual orbits that are aligned or anti-aligned with their heliocentric orbits. This pattern could perhaps result from Kozai-Lidov cycles coupled with tidal evolution eliminating high inclination wide binaries.

Published
2019
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2. Keck, gemini, and palomar 200-inch visible photometry of red and very-red neptunian trojans.

Author

Bolin, B T, Fremling, C, Morbidelli, A, Noll, K S, van Roestel, J, Deibert, E K, Delbo, M, Gimeno, G, Heo, J-E, Lisse, C M, Seccull, T, and Suh, H

Subjects
PROTOPLANETARY disks, SMALL solar system bodies, KUIPER belt
Abstract

Neptunian Trojans (NTs), trans-Neptunian objects in 1:1 mean-motion resonance with Neptune, are generally thought to have been captured from the original trans-Neptunian protoplanetary disc into co-orbital resonance with the ice giant during its outward migration. It is possible, therefore, that the colour distribution of NTs is a constraint on the location of any colour transition zones that may have been present in the disc. In support of this possible test, we obtained g, r , and i -band observations of 18 NTs, more than doubling the sample of NTs with known visible colours to 31 objects. Out of the combined sample, we found ≈4 objects with g – i colours of >1.2 mags placing them in the very red (VR) category as typically defined. We find, without taking observational selection effects into account, that the NT g – i colour distribution is statistically distinct from other trans-Neptunian dynamical classes. The optical colours of Jovian Trojans and NTs are shown to be less similar than previously claimed with additional VR NTs. The presence of VR objects among the NTs may suggest that the location of the red to VR colour transition zone in the protoplanetary disc was interior to 30 – 35 au. [ABSTRACT FROM AUTHOR]

Published
2023
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3. The Upcoming Mutual Event Season for the Patroclus-Menoetius Trojan Binary

Author

Grundy, W. M, Noll, K. S, Buie, M. W, and Levison, H. F

Subjects
Astronomy
Abstract

We present new Hubble Space Telescope and ground-based Keck observations and new Keplerian orbit solutions for the mutual orbit of binary Jupiter Trojan asteroid (617) Patroclus and Menoetius, targets of NASA's Lucy mission. We predict event times for the upcoming mutual event season, which is anticipated to run from late 2017 through mid 2019.

Published
2018
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6. The orbit and density of the Jupiter Trojan satellite system Eurybates-Queta

Author

Brown, M. E., Levison, H. F., Noll, K. S., Binzel, R., Buie, M. W., Grundy, W., Marchi, S., Olkin, C. B., Spencer, J., Statler, T. S., and Weaver, H.

Subjects
Earth and Planetary Astrophysics (astro-ph.EP), Physics::Space Physics, FOS: Physical sciences, Astrophysics::Earth and Planetary Astrophysics, Astrophysics - Earth and Planetary Astrophysics
Abstract

We report observations of the Jupiter Trojan asteroid (3548) Eurybates and its satellite Queta with the Hubble Space Telescope and use these observations to perform an orbital fit to the system. Queta orbits Eurybates with a semimajor axis of $2350\pm11$ km at a period of $82.46\pm0.06$ days and an eccentricity of $0.125\pm0.009$. From this orbit we derive a mass of Eurybates of $1.51\pm0.03 \times 10^{17}$ kg, corresponding to an estimated density of $1.1\pm0.3$ g cm$^{-3}$, broadly consistent with densities measured for other Trojans, C-type asteroids in the outer main asteroid belt, and small icy objects from the Kuiper belt. Eurybates is the parent body of the only major collisional family among the Jupiter Trojans; its low density suggests that it is a typical member of the Trojan population. Detailed study of this system in 2027 with the Lucy spacecraft flyby should allow significant insight into collisional processes among what appear to be the icy bodies of the Trojan belt., Planetary Science Journal, in press

Published
2021

7. DARe: Dark Asteroid Rendezvous

Author

Noll, K. S, McFadden, L. A, Rhoden, A. R, Lim, L. F, Boynton, W. V, Carter, L. M, Collins, G, Englander, J. A, Goossens, S. A, Grundy, W. M, Li, J.-Y, Mottola, S, Oberst, J, Orosei, R, Parsons, A. M, Preusker, F, Reuter, D. C, Simon, A. A, Thomas, C. A, Walsh, K, and Zolensky, M. E

Subjects
Astrophysics
Abstract

Small bodies record the chemical, physical, and dynamical processes that gave birth to and shaped the solar system. The great variety of small bodies reflects the diversity of both their genesis and their histories. The DARe mission conducts a critical test of how small body populations reflect a history of planetary migration and planetesimal scattering. This understanding is crucial for planning future NASA missions and placing current and past missions into context.

Published
2015

8. Global-scale near infrared variability on Mars: Analysis of 2003 Mars opposition observations from HST/NICMOS

Author

Dobrea, E. Noe, Bell, J.F., Wolff, M.J., Noll, K., Lubenow, A., and Million, C.C.

Subjects
Astronomy -- Analysis, Mars (Planet) -- Analysis, Astronomy, Earth sciences
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.icarus.2007.07.026 Byline: E. Noe Dobrea (a), J.F. Bell (b), M.J. Wolff (b), K. Noll (c), A. Lubenow (c), C.C. Million (a) Keywords: Mars; surface; Spectroscopy Abstract: We have used HST/NICMOS to observe approximately 57% of the martian surface in 7 narrow band filters (0.97, 1.08, 1.13, 1.66, 1.90, 2.12, and 2.15 [mu]m) during the 2003 opposition (L.sub.s[approximately equal to]250[degrees]) and at a resolution of [approximately equal to]12 km/pixel. Principal components analysis (PCA) of the dataset has identified regional variability on scales of hundreds of kilometers associated with differences in the near-infrared spectrum of Mars. Visualization of the data in principal component space has allowed us to identify spectral endmembers associated with the south polar cap, the classic bright terrains, northern Syrtis Major, southern Syrtis Major, Tyrrhena Terra, and Acidalia Planitia. The two Syrtis Major endmembers and the Tyrrhena Terra endmember differ in their absolute reflectivities but have the same spectral shape at wavelengths longer than 1.6 [mu]m. The Acidalia endmember is distinct from the other dark terrain endmembers because it exhibits a strong negative near-IR spectral slope. Comparisons with spectral library measurements cannot provide unique constraints on the surface mineralogy for these sparsely-sampled spectral data. However, the observed spectral variations between Tyrrhena Terra and Syrtis Major are consistent with variations in iron- and sulfur-bearing minerals, and the relatively strong negative spectral slope in the spectrum of Acidalia is consistent with the presence of hydrated alteration products. Additional comparison with previous NICMOS observations taken in 1997 at L.sub.s[approximately equal to]150[degrees] indicate that the average near-IR spectral slope of the Acidalia region is more negative during the late northern fall than during the mid northern summer. This may indicate seasonal variations in the presence of either adsorbed water or re-hydrated minerals in the regolith of Acidalia. Author Affiliation: (a) Astronomy Department, Cornell University, Ithaca, NY 14853, USA (b) Space Science Institute, 4750 Walnut Street, Suite 205, Boulder, CO 80301, USA (c) Space Telescope Science Institute, 3700 San Martin Drive, Baltimore, MD 21218, USA Article History: Received 23 March 2005; Revised 19 June 2007

Published
2008

9. Detection of a Satellite of the Trojan Asteroid (3548) Eurybates -- A Lucy Mission Target

Author

Noll, K. S., Brown, M. E., Weaver, H. A., Grundy, W. M., Porter, S. B., Buie, M. W., Levison, H. F., Olkin, C., Spencer, J. R., Marchi, S., and Statler, T. S.

Subjects
Earth and Planetary Astrophysics (astro-ph.EP), FOS: Physical sciences, Astrophysics - Earth and Planetary Astrophysics
Abstract

We describe the discovery of a satellite of the Trojan asteroid (3548) Eurybates in images obtained with the Hubble Space Telescope. The satellite was detected on three separate epochs, two in September 2018 and one in January 2020. The satellite has a brightness in all three epochs consistent with an effective diameter of d2 =1.2+/-0.4 km. The projected separation from Eurybates was s~1700-2300 km and varied in position, consistent with a large range of possible orbits. Eurybates is a target of the Lucy Discovery mission and the early detection of a satellite provides an opportunity for a significant expansion of the scientific return from this encounter., 18 pages, 4 figures

Published
2020

10. New Horizons: Long-Range Kuiper Belt Targets Observed by the Hubble Space Telescope

Author

Benecchi, S. D, Noll, K. S, Weaver, H. A, Spencer, J. R, Stern, S. A, Buie, M. W, and Parker, A. H

Subjects
Astronomy
Abstract

We report on Hubble Space Telescope (HST) observations of three Kuiper Belt Objects (KBOs), discovered in our dedicated ground-based search campaign, that are candidates for long-range observations from the New Horizons spacecraft: 2011 epochY31, 2011 HZ102, and 2013 LU35. Astrometry with HST enables both current and future critical accuracy improvements for orbit precision, required for possible New Horizons observations, beyond what can be obtained from the ground. Photometric colors of all three objects are red, typical of the Cold Classical dynamical population within which they reside; they are also the faintest KBOs to have had their colors measured. None are observed to be binary with HST above separations of approx. 0.02 arcsec (approx. 700 km at 44 AU) and delta m less than or equal to 0.5.

Published
2014
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11. The Orbit of Transneptunian Binary Manwe and Thorondor and Their Upcoming Mutual Events

Author

Grundy, W. M, Benecchi, S. D, Porter, S. B, and Noll, K. S

Subjects
Lunar And Planetary Science And Exploration
Abstract

A new Hubble Space Telescope observation of the 7:4 resonant transneptunian binary system (385446) Manwe has shown that, of two previously reported solutions for the orbit of its satellite Thorondor, the prograde one is correct. The orbit has a period of 110.18 +/- 0.02 days, semimajor axis of 6670 +/- 40 km, and an eccentricity of 0.563 +/- 0.007. It will be viewable edge-on from the inner Solar System during 2015- 2017, presenting opportunities to observe mutual occultation and eclipse events. However, the number of observable events will be small, owing to the long orbital period and expected small sizes of the bodies relative to their separation. This paper presents predictions for events observable from Earth-based telescopes and discusses the associated uncertainties and challenges.

Published
2014
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12. The UT 7/8 February 2013 Sila-Nunam Mutual Event and Future Predictions

Author

Benecchi, S. D, Noll, K. S, Thirouin, A, Ryan, E, Grundy, W. M, Verbiscer, A, Doressoundiram, A, Hestroffer, D, Beaton, R, Rabinowitz, D, and Chanover, N

Subjects
Lunar And Planetary Science And Exploration
Abstract

A superior mutual event of the Kuiper Belt binary system (79360) Sila-Nunam was observed over 15.47 h on UT 7/8 February 2013 by a coordinated effort at four different telescope facilities; it started approximately 1.5 h earlier than anticipated, the duration was approximately 9.5 h (about 10% longer than predicted), and was slightly less deep than predicted. It is the first full event observed for a comparably sized binary Kuiper Belt object. We provide predictions for future events refined by this and other partial mutual event observations obtained since the mutual event season began.

Published
2013
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13. Hubble Space Telescope imaging polarimetry of Mars during the 2003 opposition

Author

Shkuratov, Yu., Kreslavsky, M., Kaydash, V., Videen, G., Bell, J., Wolff, M., Hubbard, M., Noll, K., and Lubenow, A.

Subjects
Astronomy, Earth sciences
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.icarus.2005.01.009 Byline: Yu. Shkuratov (a)(b), M. Kreslavsky (a)(c), V. Kaydash (a), G. Videen (d), J. Bell (e), M. Wolff (d), M. Hubbard (e), K. Noll (d), A. Lubenow (d) Abstract: We report results of polarimetric imaging observations of Mars with the Hubble Space Telescope during the 2003 opposition. Through careful calibration, the observations with the ACS camera allow measurements of the polarization degree with an absolute accuracy better than 0.5% and detection of features with polarization degree contrast as small as 0.2%. The general distribution of linear polarization parameters over the Mars disk and their dependence on phase angle and wavelength are well explained qualitatively by a combination of scattering separately by the martian surface and atmosphere. We have discovered transient polarization phenomena interpreted as clouds that are best observed in ultraviolet light. These clouds are optically thin but strongly polarizing, and their origin may be related to atmospheric ice condensation processes. Author Affiliation: (a) Astronomical Institute of Kharkov National University, 35 Sumskaya St., Kharkov 61022, Ukraine (b) Radioastronomical Institute of NASU, 4 Chervonopraporova, Kharkov 61002, Ukraine (c) Department of Geological Sciences, Brown University, Providence, RI 02912, USA (d) Space Science Institute, 3100 Marine Street, Suite A353, Boulder, CO 80303-1058, USA (e) Cornell University, Department of Astronomy, 402 Space Sciences Building, Ithaca, NY 14853-6801, USA

Published
2005

18. Long-Term Evolution of the Aerosol Debris Cloud Produced by the 2009 Impact on Jupiter

Author

Sanchez-Lavega, A, Orton, G. S, Hueso, R, Perez-Hoyos, S, Fletcher, L. N, Garcia-Melendo, E, Gomez-Forrellad, J. M, de Pater, I, Wong, M, Hammel. H. B, Yanamandra-Fisher, P, Simon-Miller, A, Barrado-Izagirre, N, Marchis, F, Mousis, O, Oritz, J. L, Garcia-Rojas, J, Cecconi, M, Clarke, J. T, Noll, K, Pedraz, S, Wesley, A, Kalas, P, McConnell, N, and Golisch, W

Subjects
Lunar And Planetary Science And Exploration
Abstract

We present a study of the long-term evolution of the cloud of aerosols produced in the atmosphere of Jupiter by the impact of an object on 19 July 2009. The work is based on images obtained during 5 months from the impact to 31 December 2009 taken in visible continuum wavelengths and from 20 July 2009 to 28 May 2010 taken in near-infrared deep hydrogen-methane absorption bands at 2.1-2.3 micron. The impact cloud expanded zonally from approximately 5000 km (July 19) to 225,000 km (29 October, about 180 deg in longitude), remaining meridionally localized within a latitude band from 53.5 deg S to 61.5 deg S planetographic latitude. During the first two months after its formation the site showed heterogeneous structure with 500-1000 km sized embedded spots. Later the reflectivity of the debris field became more homogeneous due to clump mergers. The cloud was mainly dispersed in longitude by the dominant zonal winds and their meridional shear, during the initial stages, localized motions may have been induced by thermal perturbation caused by the impact's energy deposition. The tracking of individual spots within the impact cloud shows that the westward jet at 56.5 deg S latitude increases its eastward velocity with altitude above the tropopause by 5- 10 m/s. The corresponding vertical wind shear is low, about 1 m/s per scale height in agreement with previous thermal wind estimations. We found evidence for discrete localized meridional motions with speeds of 1-2 m/s. Two numerical models are used to simulate the observed cloud dispersion. One is a pure advection of the aerosols by the winds and their shears. The other uses the EPIC code, a nonlinear calculation of the evolution of the potential vorticity field generated by a heat pulse that simulates the impact. Both models reproduce the observed global structure of the cloud and the dominant zonal dispersion of the aerosols, but not the details of the cloud morphology. The reflectivity of the impact cloud decreased exponentially with a characteristic timescale of 15 days; we can explain this behavior with a radiative transfer model of the cloud optical depth coupled to an advection model of the cloud dispersion by the wind shears. The expected sedimentation time in the stratosphere (altitude levels 5-100 mbar) for the small aerosol particles forming the cloud is 45-200 days, thus aerosols were removed vertically over the long term following their zonal dispersion. No evidence of the cloud was detected 10 months after the impact.

Published
2011
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20. Jupiter After the 2009 Impact: Hubble Space Telescope Imaging of the Impact-Generated Debris and Its Temporal Evolution

Author

Hammel, H. B, Wong, M. H, Clarke, J. T, de Pater, I, Fletcher, L. N, Hueso, R, Noll, K, Orton, G. S, Perez-Hoyos, S, Sanchez-Lavega, A, Simon-Miller, A. A, and Yanamandra-Fisher, P. A

Subjects
Lunar And Planetary Science And Exploration
Abstract

We report Hubble Space Telescope images of Jupiter during the aftermath of an impact by an unknown object in 2009 July, The 2009 impact-created debris field evolved more slowly than those created in 1994 by the collision of the tidally disrupted comet D/Shoemaker-Levy 9 (SL9). The slower evolution, in conjunction with the isolated nature of this single impact, permits a more detailed assessment of the altitudes and meridional motion of the debris than was possible with SL9. The color of the 2009 debris was markedly similar to that seen in 1994, thus this dark debris is likely to be Jovian material that is highly thermally processed. The 2009 impact site differed from the 1994 SL9 sites in UV morphology and contrast lifetime; both are suggestive of the impacting body being asteroidal rather than cometary. Transport of the 2009 Jovian debris as imaged by Hubble shared similarities with transport of volcanic aerosols in Earth's atmosphere after major eruptions.

Published
2010
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21. First Earth-Based Detection of a Superbolide on Jupiter

Author

Hueso, R, Wesley, A, Go, C, Perez-Hoyos, S, Wong, M. H, Fletcher, L. N, Sanchez-Lavega, A, Boslough, M. B, DePater, I, Orton, G. S, Simon-Miller, A. A, Djorgovski, S. G, Edwards, M. L, Hammel, H. B, Clarke, J. T, Noll, K. S, and Yanamandra-Fisher, P. A

Subjects
Astronomy
Abstract

Cosmic collisions can planets cause detectable optical flashes that range from terrestrial shooting stars to bright fireballs. On 2010 June 3 a bolide in Jupiter's atmosphere was simultaneously observed from the Earth by two amateur astronomers observing Jupiter in red and blue wavelengths, The bolide appeared as a flash of 2 s duration in video recording data of the planet. The analysis of the light carve of the observations results in an estimated energy of the impact of (0.9-4,0) x 10(exp 15) J which corresponds to a colliding body of 8-13 m diameter assuming a mean density of 2 g/cu cm. Images acquired a few days later by the Hubble Space Telescope and other large ground-based facilities did not show any signature of aerosol debris, temperature, or chemical composition anomaly, confirming that the body was small and destroyed in Jupiter's upper atmosphere. Several collisions of this size may happen on Jupiter on a yearly basis. A systematic study of the impact rate and size of these bolides can enable an empirical determination. of the flux of meteoroids in Jupiter with implications for the populations of small bodies in the outer solar system and may allow a better quantification of the threat of impacting bodies to Earth. The serendipitous recording of this optical flash opens a new window in the observation of Jupiter with small telescopes.

Published
2010
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22. The color and binarity of (486958) 2014 MU₆₉ and other long-range New Horizons Kuiper Belt targets

Author

Benecchi, S. D., Borncamp, D., Parker, A. H., Buie, M. W., Noll, K. S., Binzel, R. P., Stern, S. A., Verbiscer, A. J., Kavelaars, J. J., Zangari, A. M., Spencer, J. R., and Weaver, H. A.

Subjects
Photometry, Kuiper Belt, Hubble Space Telescope observations
Abstract

The Hubble Space Telescope (HST) measured the colors of eight Kuiper Belt Objects (KBOs) that will be observed by the New Horizons spacecraft including its 2019 close fly-by target the Cold Classical KBO (486958) 2014 MU₆₉. We find that the photometric colors of all eight objects are red, typical of the Cold Classical dynamical population within which most reside. Because 2014 MU₆₉ has a similar color to that of other KBOs in the Cold Classical region of the Kuiper Belt, it may be possible to use the upcoming high-resolution New Horizons observations of 2014 MU₆₉ to draw conclusions about the greater Cold Classical population. Additionally, HST found none of these KBOs to be binary within separations of ~0.06 arcsec (~2000 km at 44 AU range) and Δm ≤ 0.5. This conclusion is consistent with the lower fraction of binaries found at relatively wide separations. A few objects appear to have significant photometric variability, but our observations are not of sufficient signal-to-noise or time duration for further interpretation.

Published
2019

23. Temporal Variations in Jupiter's Atmosphere

Author

Simon-Miller, Amy A, Chanover, N. J, Yanamandra-Fisher, P, Hammel, H. B, dePater, I, Noll, K, Wong, M, Clarke, J, Sanchez-Levega, A, Orton, G. S, and Gonzaga, S

Subjects
Lunar And Planetary Science And Exploration
Abstract

In recent years, Jupiter has undergone many atmospheric changes from storms turning red to global. cloud upheavals, and most recently, a cornet or asteroid impact. Yet, on top of these seemingly random changes events there are also periodic phenomena, analogous to observed Earth and Saturn atmospheric oscillations. We will present 15 years of Hubble data, from 1994 to 2009, to show how the equatorial tropospheric cloud deck and winds have varied over that time, focusing on the F953N, F41 ON and F255W filters. These filters give leverage on wind speeds plus cloud opacity, cloud height and tropospheric haze thickness, and stratospheric haze, respectively. The wind data consistently show a periodic oscillation near 7-8 S latitude. We will discuss the potential for variations with longitude and cloud height, within the calibration limits of those filters. Finally, we will discuss the role that large atmospheric events, such as the impacts in 1994 and 2009, and the global upheaval of 2007, have on temporal studies, This work was supported by a grant from the NASA Planetary Atmospheres Program. HST observational support was provided by NASA through grants from Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy, Inc., under contract NAS5-26555.

Published
2009

24. Changing Characteristics of Jupiter's Little Red Spot

Author

Cheng, A. F, Simon-Miller, A. A, Weaver, H. A, Baines, K. H, Orton, G. S, Yanamandra-FIsher, P. A, Mousis, O, Pantin, E, Vanzi, L, Fletcher, L. N, Spencer, J. R, Stern, S. A, Clarke, J. T, Mutchler, M. J, and Noll, K. S

Subjects
Lunar And Planetary Science And Exploration
Abstract

The Little Red Spot (LRS) in Jupiter's atmosphere was investigated in unprecedented detail by the New Horizons spacecraft together with the Hubble Space Telescope (HST) and the Very Large Telescope (VLT). The LRS and the larger Great Red Spot (GRS) of Jupiter are the largest known atmospheric storms in the solar system. Originally a white oval, the LRS formed from the mergers of three smaller storms in 1998 and 2000 and became as red as the GRS between 2005 and 2006. Here we show that circulation and wind speeds in the LRS have increased substantially since the Voyager and Galileo eras when the oval was white. The maximum tangential velocity of the LRS is now 172 +/- 18 m/s, close to the highest values ever seen in the GRS, which has also evolved both in size and maximum wind speed. The cloud top altitudes of the GRS and LRS are similar, both storms extending much higher in the atmosphere than other Jovian anticyclonic systems. The similarities in wind speeds, cloud morphology, and coloring suggest a common dynamical mechanism explains the reddening of the two largest anticyclonic systems on Jupiter. These storms will not be observed again from close range until at least 2016.

Published
2008

25. Large-scale storms in Saturn's atmosphere during 1994

Author

Sanchez-Lavega, A., Lecacheux, J., Gomez, J.M., Colas, F., Laques, P., Noll, K., Gilmore, D., Miyazaki, I., and Parker, D.

Subjects
Planetary meteorology -- Observations, Planets -- Atmosphere, Saturn (Planet), Science and technology, Observations
Abstract

Large-scale storms are rarely observed in Saturn's atmosphere, but their appearance traces the wind velocity field, providing information on the vertical structure of the clouds and on the dynamics of the atmosphere. Two large-scale atmospheric disturbances formed by clouds highly reflective in the visible part of the spectrum were observed on Saturn during 1994. An equatorial disturbance with a longitudinal size of ~27,000 kilometers drifted in longitude with a velocity of 273.6 meters per second. A second disturbance, a rapidly evolving convective storm with an initial size ~7000 kilometers, was observed at 56 degrees south, moving with a zonal velocity of 15.5 meters per second., Cloud systems with enough size and reflectivity contrast to be detected by ground-based telescopes are rare in Saturn's atmosphere (1-3). Only five large-scale atmospheric disturbances at different latitudes between 5° [...]

Published
1996

29. Titania and Oberon: Surface Composition from New Near-Infrared Observations and Reflectance Models

Author

Roush, Ted L, Cruikshank, D. P, Owen, T. C, Geballe, T. R, Benedix, G. K, deBergh, C, Noll, K. S, Khare, B, and DeVincenzi, Donald

Subjects
Lunar And Planetary Science And Exploration
Abstract

Here we report the combination of new near-ir spectra (1.45-2.48 micrometers), of Titania and Oberon obtained in September 1995 at a resolving power of approx. 800, with older near-ir observations (0.5- 1.44 micrometers), and recent UV (0.22-0.48 micrometers) observations obtained with HST. Previous interpretations suggest these surfaces are chiefly composed of water ice and varying amounts of spectrally neutral material. The new near-ir data provide the opportunity to search for absorption bands that could be attributable to surface materials other than water ice and because the combined spectra include such a broad wavelength region, to undertake improved models of water and neutral components on the surface. The calculated near-ir geometric albedos clearly exhibit three broad spectral features. Two (1.52- & 2.05 micrometer) have previously been used to demonstrate the presence of water ice on these satellites. The third (approx. 1.65 micrometer), suggests the presence of hexagonal water ice at low temperatures, and may provide a mechanism of estimating the surface temperature. There is no spectral evidence for ices of CO2, CO, NH3 or CH4. At UV wavelengths there is a broad absorption near 0.27-0.28 micrometer previously attributed to OH formed by magnetospheric-surface interactions and retained at the low surface temperatures of these satellites. Surface components used in a Hapke scattering models include values for a combination of irradiated water ice in the UV and hexagonal water ice at 100k in the near-ir (IR), amorphous carbon (AC), and tholins (T) (produced from gas and solid). Results of these models suggest the surfaces of Titania/Oberon are composed of IW (-77/52%) with AC the next most abundant component (approx. 19/52%) and finally T (approx. 4/7%).

Published
1998

31. Collision of Comet Shoemaker-Levy 9 with Jupiter Observed by the NASA Infrared Telescope Facility

Author

Orton, G., A'Hearn, M., Baines, K., Deming, D., Dowling, T., Goguen, J., Griffith, C., Hammel, H., Hoffmann, W., Hunten, D., Jewitt, D., Kostiuk, T., Miller, S., Noll, K., Zahnle, K., Achilleos, N., Dayal, A., Deutsch, L., Espenak, F., Esterle, P., Friedson, J., Fast, K., Harrington, J., Hora, J., Joseph, R., Kelly, D., Knacke, R., Lacy, J., Lisse, C., Rayner, J., Sprague, A., Shure, M., Wells, K., Yanamandra-Fisher, P., Zipoy, D., Bjoraker, G., Buhl, D., Golisch, W., Griep, D., Kaminski, C., Arden, C., Chaikin, A., Goldstein, J., Gilmore, D., Fazio, G., Kanamori, T., Lam, H., Livengood, T., MacLow, M.-M., Marley, M., Momary, T., Robertson, D., Romani, P., Spitale, J., Sykes, M., Tennyson, J., Wellnitz, D., and Ying, S.-W.

Published
1995

33. The Hubble Space Telescope (HST) Observing Campaign on Comet Shoemaker-Levy 9

Author

Weaver, H. A., A'Hearn, M. F., Arpigny, C., Boice, D. C., Feldman, P. D., Larson, S. M., Lamy, P., Levy, D. H., Marsden, B. G., Meech, K. J., Noll, K. S., Scotti, J. V., Sekanina, Z., Shoemaker, C. S., Shoemaker, E. M., Smith, T. E., Stern, S. A., Storrs, A. D., Trauger, J. T., Yeomans, D. K., and Zellner, B.

Published
1995

35. Titan's 5 micrometers spectral window: carbon monoxide and the albedo of the surface

Author

Noll, K. S, Geballe, T. R, Knacke, R. F, and Pendleton, Y. J

Subjects
Lunar And Planetary Science And Exploration
Abstract

We have measured the spectrum of Titan near 5 micrometers and have found it to be dominated by absorption from the carbon monoxide 1-0 vibration-rotation band. The position of the band edge allows us to constrain the abundance of CO in the atmosphere and/or the location of the reflecting layer in the atmosphere. In the most likely case, 5 micrometers radiation is reflected from the surface and the mole fraction of CO in the atmosphere is qCO=10(+10/-5) ppm, significantly lower than previous estimates for tropospheric CO. The albedo of the reflecting layer is approximately 0.07(+0.02/-0.01) in the 5 micrometers continuum outside the CO band. The 5 micrometers albedo is consistent with a surface of mixed ice and silicates similar to the icy Galilean satellites. Organic solids formed in simulated Titan conditions can also produce similar albedos at 5 micrometers.

Published
1996
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36. Hubble Space Telescope Observations of Comet P/Shoemaker-Levy 9 (1993e)

Author

Weaver, H. A., Feldman, P. D., A'Hearn, M. F., Arpigny, C., Brown, R. A., Helin, E. F., Levy, D. H., Marsden, B. G., Meech, K. J., Larson, S. M., Noll, K. S., Scotti, J. V., Sekanina, Z., Shoemaker, C. S., Shoemaker, E. M., Smith, T. E., Storrs, A. D., Yeomans, D. K., and Zellner, B.

Published
1994

37. Titan: Evidence for seasonal change - A comparison of Hubble Space Telescope and Voyager images

Author

Caldwell, John, Cunningham, Cindy C, Anthony, David, White, H. P, Groth, E. J, Hasan, H, Noll, K, Smith, P. H, Tomasko, M. G, and Weaver, H. A

Subjects
Lunar And Planetary Exploration
Abstract

A comparison of images of Titan obtained by the HST in August, 1990 with Voyager 1 and 2 images respectively obtained 10 and 9 years earlier has indicated a reversal of the seasonal hemispheric brightness asymmetry near 440 and 550 nm wavelengths; the northern hemisphere is in the more recent observations the brighter of the two, by about 10 percent. Titan's albedo pattern is therefore adequately explained by a seasonal model.

Published
1992
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38. Titan's mid-IR albedo: New observations from 3 to 5 microns

Author

Noll, K. S and Knacke, R. F

Subjects
Lunar And Planetary Exploration
Abstract

Photometric and spectrophotometric observations of Titan in the wavelength interval from 3 to 5 micrometers which were made in Jun. 1990 and Jun. 1991 are reported and analyzed. The broadband flux measured at 4.8 micrometers in both years and on two different telescopes is more than a factor of three lower than measurements made by two independent groups in 1971 and 1973. No other measurements were made in the 17 intervening years. It was concluded that either the original measurements were contaminated by long wavelength leaks or that Titan's albedo at 4.8 micrometers has decreased. The low resolution spectrum obtained near 4.8 micrometers is crudely consistent with the presence of CO at 60 ppm in the lower troposphere and a reflecting layer located between 100 mbar and the surface at 1500 mbar. The spectrum from 3.1 to 4.0 micrometers is relatively featureless at low spectral resolution but has some hints of structure that may yield information at higher resolution and signal to noise.

Published
1992

39. Infrared variability of Jupiter and Saturn

Author

Knacke, Roger and Noll, K. S

Subjects
Astronomy
Abstract

Infrared spectroscopy provides unique insights into the chemistry and dynamics of the atmospheres of Jupiter and Saturn, and of the enigmatic satellite of Saturn, Titan. The 5 micron spectral region of these objects is transparent to deep levels, and is therefore particularly useful for the identification of molecules that are present at very low (parts per billion) concentrations. In Titan, 5 micron observations probe atmospheric layers at or near the surface. Ground-based spectroscopy complements Voyager, Galileo, and Cassini measurements. The spectroscopy is sensitive to lower mixing ratios for selected molecules, while the on-board mass and infrared spectrometers probe molecules and levels that are inaccessible form the ground. The observations also provide time-based data for preparation of the upcoming missions.

Published
1991

40. Search for interstellar methane

Author

Knacke, R. F, Kim, Y. H, Noll, K. S, and Geballe, T. R

Subjects
Astronomy
Abstract

Researchers searched for interstellar methane in the spectra of infrared sources embedded in molecular clouds. New observations of several lines of the P and R branches of the nu 3 band of CH4 near 3.3 microns give column densities in the range N less than 1(-2) times 10 to the minus 16th power cm(-2). Resulting abundance ratios are (CH4)/(CO) less than 3.3 times 10 to the minus 2nd power toward GL961 in NGC 2244 and less than 2.4 times 10 to the minus 3rd power toward GL989 in the NGC 2264 molecular cloud. The limits, and those determined in earlier observations of BN in Orion and GL490, suggest that there is little methane in molecular clouds. The result agrees with predictions of chemical models. Exceptions could occur in clouds where oxygen may be depleted, for example by H2O freezing on grains. The present observations probably did not sample such regions.

Published
1990

43. DARe: Dark Asteroid Rendezvous

Author

Noll, K. S., McFadden, L. A., Rhoden, A. R., Lim, L. F., Boynton, W. V., Carter, L. M., Collins, G., Englander, J. A., Goossens, S., Grundy, W. M., Li, J. -Y., Mottola, S., Oberst, J., OROSEI, ROBERTO, Parsons, A. M., Preusker, F., Reuter, D. C., Simon, A. A., Thomas, C. A., Walsh, K., Zolensky, M. E., ITA, USA, and DEU

Subjects
Mathematics::History and Overview, Physics::Space Physics, Astrophysics::Instrumentation and Methods for Astrophysics, Astrophysics::Earth and Planetary Astrophysics
Abstract

DARe, the Dark Asteroid Rendezvous mission, will orbit asteroids with a SEP-powered spacecraft to test how small body populations trace planetary migration.

Published
2015

44. Detection of Rotational Acceleration of Bennu Using HST Light Curve Observations.

Author

Nolan, M. C., Howell, E. S., Hergenrother, C. W., Lauretta, D. S., Scheeres, D. J., McMahon, J. W., Golubov, O., Emery, J. P., Noll, K. S., and Chesley, S. R.

Subjects
NEAR-earth asteroids, YARKOVSKY effect, ANGULAR momentum (Mechanics), RADAR
Abstract

We observed the near‐Earth asteroid (101955) Bennu from the ground in 1999 and 2005, and with the Hubble Space Telescope (HST) in 2012, to constrain its rotation rate. The data reveal an acceleration of 2.64 ± 1.05 × 10−6 deg/day2, which could be due to a change in the moment of inertia of Bennu or to spin up from the Yarkovsky‐O'Keefe‐Radzievskii‐Paddack effect or other source of angular momentum. The best solution is within 1 σ of the period determined by Nolan et al. (2013, https://doi.org/10.1016/j.icarus.2013.05.028). The Origins, Spectral Interpretation, Resource Identification, and Security–Regolith Explorer (OSIRIS‐REx) mission will determine the rotation state independently in 2019. Those measurements should show whether the change in rotation rate is a steady increase (due, e.g., to the Yarkovsky‐O'Keefe‐Radzievskii‐Paddack effect) or some other phenomenon. The precise shape and surface properties measured by the OSIRIS‐REx science team will allow for a better understanding of variations in rotation rate of small asteroids. Plain Language Summary: We observed near‐Earth asteroid (101955) Bennu—the target of the Origins, Spectral Interpretation, Resource Identification, and Security–Regolith Explorer (OSIRIS‐REx) spacecraft mission—using ground‐based telescopes and the Hubble Space Telescope. Our measurements show that its rotation has been speeding up since 1999. This change could be due to a change in the shape of Bennu or to the Yarkovsky‐O'Keefe‐Radzievskii‐Paddack effect: As the sunlight received by an asteroid is reflected or radiated back to space, the change in direction of the light coming in and going out pushes on the asteroid and can cause it to spin faster or slower, depending on its shape and orientation. The specific properties of the surface, such as the position of boulders, can have a large influence on the outcome. In the next few years, the OSIRIS‐REx team will study Bennu and independently measure its rotation, helping us to better understand the structure and dynamical evolution of small asteroids. Key Points: Asteroid (101955) Bennu has been rotating faster over time since 1999An acceleration in its rotation rate is needed to fit all the photometric measurements of asteroid BennuThe measured acceleration of Bennu is consistent with theoretical calculations of the total effects of the YORP effect [ABSTRACT FROM AUTHOR]

Published
2019
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45. 1. and 2 Samuel

Author

NOLL, K. L.

Subjects
1. and 2 Samuel (Book), Books -- Book reviews, Philosophy and religion, Political science
Abstract

by Mary J. Evans NIBC. Hendrickson, Peabody, 2000. 267pp. $11.95. ISBN 1-56563-579.5. THIS COMMENTARY is part of a series designed to offer sound scholarship expressed with 'warm Christian affection' for [...]

Published
2001

46. The Historical Books

Author

Noll, K. L.

Subjects
The Historical Books: Interpreting Biblical Texts (Book), Books -- Book reviews, Philosophy and religion, Political science
Abstract

The Historical Books, by Richard D. Nelson. Interpreting Biblical Texts. Abingdon, Nashville, 1998. 190 pp. $19.00. ISBN 0-687-00843-3. THIS VOLUME IS PART of a series designed for theology students and [...]

Published
1999

49. The Ethics of Being a Theologian

Author

Noll, K. L.

Abstract

Most people do not understand what religious study really is. Professors of religion are often confused with, or assumed to be allies of, professors of theology. The reason for the confusion is no secret. All too often, even at public universities, the religion department is peopled by theologians, and many of those theologians refuse to make the distinction that the author makes in this article. Religious study attempts to advance knowledge by advancing individuals' understanding about why and how humans are religious, what religion actually does, and how religion has evolved historically. Theology also views itself as an academic discipline, but it does not attempt to advance knowledge. Rather, theologians practice and defend religion. Theology is a set of words about a god; therefore, while theology is one of many objects of investigation for a religion researcher, it is the substance of the scholarship produced by a theologian. The author requests that theologians fulfill basic ethical obligations, such as the affirmation that theology is not knowledge and must position itself apart from those academic disciplines that try to advance knowledge, such as history, anthropology, religious study, and (perhaps especially) the natural sciences.

Published
2009

50. Hubble Space Telescope ACS mosaic of the prototypical starburst galaxy M82

Author

Puxley, P., Januszewski, W., Hamilton, F., Frattare, L., Christian, C., Bond, H., Mutchler, M., Levay, Z., Mountain, M., Noll, K., Royle, P., and Gallagher, J.

Subjects
Astrophysics (astro-ph), FOS: Physical sciences, Astrophysics
Abstract

In March 2006, the Hubble Heritage Team obtained a large four-filter (B, V, I, and H-alpha) six-point mosaic dataset of the prototypical starburst galaxy NGC 3034 (M82), with the Advanced Camera for Surveys (ACS) onboard the Hubble Space Telescope (HST). The resulting color composite Heritage image was released in April 2006, to celebrate Hubble's 16th anniversary. Cycle 15 HST proposers were encouraged to submit General Observer and Archival Research proposals to complement or analyze this unique dataset. Since our M82 mosaics represent a significant investment of expert processing beyond the standard archival products, we will also release our drizzle combined FITS data as a High Level Science Product via the Multimission Archive at STScI (MAST) on December 31, 2006. This paper documents the key aspects of the observing program and image processing: calibration, image registration and combination (drizzling), and the rejection of cosmic rays and detector artifacts. Our processed FITS mosaics and related information can be downloaded from http://archive.stsci.edu/prepds/m82/, To appear in Publications of the Astronomical Society of the Pacific, January 2007; 13 pages, 3 figures. Data downloadable from http://archive.stsci.edu/prepds/m82/

Published
2006

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