Your search keyword '"Marsset, Michael"' showing total 31 results

1. Spectral evolution of dark asteroid surfaces induced by space weathering over a decade

Author

Hasegawa, Sunao, DeMeo, Francesca E., Marsset, Michael, Hanus, Josef, Avdellidou, Chrysa, Delbo, Marco, Bus, Schelte J., Hanayama, Hidekazu, Horiuchi, Takashi, Takir, Driss, Jehin, Emmanuel, Ferrais, Marin, Geem, Jooyeon, Im, Myungshin, Seo, Jinguk, Bach, Yoonsoo P., Jin, Sunho, Ishiguro, Masateru, Kuroda, Daisuke, Binzel, Richard P., Nakamura, Akiko M., Yang, Bin, Vernazza, Pierre, Hasegawa, Sunao, DeMeo, Francesca E., Marsset, Michael, Hanus, Josef, Avdellidou, Chrysa, Delbo, Marco, Bus, Schelte J., Hanayama, Hidekazu, Horiuchi, Takashi, Takir, Driss, Jehin, Emmanuel, Ferrais, Marin, Geem, Jooyeon, Im, Myungshin, Seo, Jinguk, Bach, Yoonsoo P., Jin, Sunho, Ishiguro, Masateru, Kuroda, Daisuke, Binzel, Richard P., Nakamura, Akiko M., Yang, Bin, and Vernazza, Pierre

Abstract

The surface of airless bodies like asteroids in the Solar System are known to be affected by space weathering. Experiments simulating space weathering are essential for studying the effects of this process on meteorite samples, but the problem is that the time spent to reproduce space weathering in these experiments is billions of times shorter than the actual phenomenon. In December 2010, the T-type asteroid 596 Scheila underwent a collision with a few-tens-of-meters impactor. A decade later, there is an opportunity to study how the surface layer of this asteroid is being altered by space weathering after the impact. To do so, we performed visible spectrophotometric and near-infrared spectroscopic observations of 596 Scheila. The acquired spectrum is consistent with those observed shortly after the 2010 impact event within the observational uncertainty range. This indicates that the surface color of dark asteroids is not noticeably changed by space weathering over a 10-year period. This study is the first to investigate color changes due to space weathering on an actual asteroid surface in the Solar System. Considering that fresh layers are regularly created on asteroid surfaces by collisions, we suggest a genetic link between D/T-type and dark (low albedo) X-complex asteroids and very red objects such as 269 Justitia, 732 Tjilaki (and 203 Pompeja). New observations show that 203 Pompeja has a X-type-like surface, with some local surface areas exhibiting a very red spectrum., Comment: 16 pages, 9 figures, 2 tables, Accepted for publication in ApJ Letters

Published

2022

2. Col-OSSOS: The Distribution of Surface Classes in Neptune's Resonances

Author

Pike, Rosemary E., Fraser, Wesley C., Volk, Kathryn, Kavelaars, J. J., Marsset, Michael, Peixinho, Nuno, Schwamb, Megan E., Bannister, Michele T., Peltier, Lowell, Buchanan, Laura E., Benecchi, Susan, Tan, Nicole, Pike, Rosemary E., Fraser, Wesley C., Volk, Kathryn, Kavelaars, J. J., Marsset, Michael, Peixinho, Nuno, Schwamb, Megan E., Bannister, Michele T., Peltier, Lowell, Buchanan, Laura E., Benecchi, Susan, and Tan, Nicole

Abstract

The distribution of surface classes of resonant trans-Neptunian objects (TNOs) provides constraints on the protoplanetesimal disk and giant planet migration. To better understand the surfaces of TNOs, the Colours of the Outer Solar System Origins Survey (Col-OSSOS) acquired multi-band photometry of 102 TNOs, and found that the surfaces of TNOs can be well described by two surface classifications, BrightIR and FaintIR. These classifications both include optically red members and are differentiated predominantly based on whether their near-infrared spectral slope is similar to their optical spectral slope. The vast majority of cold classical TNOs, with dynamically quiescent orbits, have the FaintIR surface classification, and we infer that TNOs in other dynamical classifications with FaintIR surfaces share a common origin with the cold classical TNOs. Comparison between the resonant populations and the possible parent populations of cold classical and dynamically excited TNOs reveal that the 3:2 has minimal contributions from the FaintIR class, which could be explained by the $\nu_8$ secular resonance clearing the region near the 3:2 before any sweeping capture occurred. Conversely, the fraction of FaintIR objects in the 4:3 resonance, 2:1 resonance, and the resonances within the cold classical belt, suggest that the FaintIR surface formed in the protoplanetary disk between 34.6 and 47 au, though the outer bound depends on the degree of resonance sweeping during migration. The presence and absence of the FaintIR surfaces in Neptune's resonances provides critical constraints for the history of Neptune's migration, the evolution of the $\nu_8$, and the surface class distribution in the initial planetesimal disk, Comment: 19 pages, 8 figures. in Press at PSJ

Published

2022

3. The appearance of a 'fresh' surface on 596 Scheila as a consequence of the 2010 impact event

Author

Hasegawa, Sunao, Marsset, Michael, DeMeo, Francesca E., Bus, Schelte J., Ishiguro, Masateru, Kuroda, Daisuke, Binzel, Richard P., Hanus, Josef, Nakamura, Akiko M., Yang, Bin, Vernazza, Pierre, Hasegawa, Sunao, Marsset, Michael, DeMeo, Francesca E., Bus, Schelte J., Ishiguro, Masateru, Kuroda, Daisuke, Binzel, Richard P., Hanus, Josef, Nakamura, Akiko M., Yang, Bin, and Vernazza, Pierre

Abstract

Dust emission was detected on main-belt asteroid 596 Scheila in December 2010, and attributed to the collision of a few-tens-of-meters projectile on the surface of the asteroid. In such impact, the ejected material from the collided body is expected to mainly comes from its fresh, unweathered subsurface. Therefore, it is expected that the surface of 596 was partially or entirely refreshed during the 2010 impact. By combining spectra of 596 from the literature and our own observations, we show that the 2010 impact event resulted in a significant slope change in the near-infrared (0.8 to 2.5 {\mu}m) spectrum of the asteroid, from moderately red (T-type) before the impact to red (D-type) after the impact. This provides evidence that red carbonaceous asteroids become less red with time due to space weathering, in agreement with predictions derived from laboratory experiments on the primitive Tagish Lake meteorite, which is spectrally similar to 596. This discovery provides the very first telescopic confirmation of the expected weathering trend of asteroids spectrally analog to Tagish Lake and/or anhydrous chondritic porous interplanetary dust particles. Our results also suggest that the population of implanted objects from the outer solar system is much larger than previously estimated in the main-belt, but many of these objects are hidden below their space-weathered surface., Comment: 11 pages, 5 figures, 1 tables, Accepted for publication in ApJ Letters

Published

2021

4. Discovery of two TNO-like bodies in the asteroid belt

Author

Hasegawa, Sunao, Marsset, Michael, DeMeo, Francesca E., Bus, Schelte J., Geem, Jooyeon, Ishiguro, Masateru, Im, Myungshin, Kuroda, Daisuke, Vernazza, Pierre, Hasegawa, Sunao, Marsset, Michael, DeMeo, Francesca E., Bus, Schelte J., Geem, Jooyeon, Ishiguro, Masateru, Im, Myungshin, Kuroda, Daisuke, and Vernazza, Pierre

Abstract

Two extremely red main-belt asteroids: 203 Pompeja and 269 Justitia, were identified from combined visible and near-infrared spectroscopic observations collected at the IRTF and SAO observatories. These two asteroids have a redder spectral slope than any other D-type body, which are the reddest objects in the asteroid belt, and similar to RR and IR-class objects found in the outer Solar System among trans-Neptunian objects and Centaurs. Spectroscopic results suggest the presence of complex organic materials on the surface layer of these asteroids, implying that they could have formed in the vicinity of Neptune and been transplanted to the main belt region during a phase of planetary migration. 203 Pompeia is the only very red asteroid known so far among the ~250 bodies with diameter larger than 110 km (i.e. presumably structurally intact) found in the asteroid belt. These discoveries add another piece of evidence that the main asteroid belt hosts a population of bodies that were formed in the outskirt of the Solar System., Comment: 12 pages, 5 figures, 1 tables, Accepted for publication in ApJ Letters

Published

2021

5. The appearance of a 'fresh' surface on 596 Scheila as a consequence of the 2010 impact event

Author

Hasegawa, Sunao, Marsset, Michael, DeMeo, Francesca E., Bus, Schelte J., Ishiguro, Masateru, Kuroda, Daisuke, Binzel, Richard P., Hanus, Josef, Nakamura, Akiko M., Yang, Bin, Vernazza, Pierre, Hasegawa, Sunao, Marsset, Michael, DeMeo, Francesca E., Bus, Schelte J., Ishiguro, Masateru, Kuroda, Daisuke, Binzel, Richard P., Hanus, Josef, Nakamura, Akiko M., Yang, Bin, and Vernazza, Pierre

Abstract

Dust emission was detected on main-belt asteroid 596 Scheila in December 2010, and attributed to the collision of a few-tens-of-meters projectile on the surface of the asteroid. In such impact, the ejected material from the collided body is expected to mainly comes from its fresh, unweathered subsurface. Therefore, it is expected that the surface of 596 was partially or entirely refreshed during the 2010 impact. By combining spectra of 596 from the literature and our own observations, we show that the 2010 impact event resulted in a significant slope change in the near-infrared (0.8 to 2.5 {\mu}m) spectrum of the asteroid, from moderately red (T-type) before the impact to red (D-type) after the impact. This provides evidence that red carbonaceous asteroids become less red with time due to space weathering, in agreement with predictions derived from laboratory experiments on the primitive Tagish Lake meteorite, which is spectrally similar to 596. This discovery provides the very first telescopic confirmation of the expected weathering trend of asteroids spectrally analog to Tagish Lake and/or anhydrous chondritic porous interplanetary dust particles. Our results also suggest that the population of implanted objects from the outer solar system is much larger than previously estimated in the main-belt, but many of these objects are hidden below their space-weathered surface., Comment: 11 pages, 5 figures, 1 tables, Accepted for publication in ApJ Letters

Published

2021

6. Discovery of two TNO-like bodies in the asteroid belt

Author

Hasegawa, Sunao, Marsset, Michael, DeMeo, Francesca E., Bus, Schelte J., Geem, Jooyeon, Ishiguro, Masateru, Im, Myungshin, Kuroda, Daisuke, Vernazza, Pierre, Hasegawa, Sunao, Marsset, Michael, DeMeo, Francesca E., Bus, Schelte J., Geem, Jooyeon, Ishiguro, Masateru, Im, Myungshin, Kuroda, Daisuke, and Vernazza, Pierre

Abstract

Two extremely red main-belt asteroids: 203 Pompeja and 269 Justitia, were identified from combined visible and near-infrared spectroscopic observations collected at the IRTF and SAO observatories. These two asteroids have a redder spectral slope than any other D-type body, which are the reddest objects in the asteroid belt, and similar to RR and IR-class objects found in the outer Solar System among trans-Neptunian objects and Centaurs. Spectroscopic results suggest the presence of complex organic materials on the surface layer of these asteroids, implying that they could have formed in the vicinity of Neptune and been transplanted to the main belt region during a phase of planetary migration. 203 Pompeia is the only very red asteroid known so far among the ~250 bodies with diameter larger than 110 km (i.e. presumably structurally intact) found in the asteroid belt. These discoveries add another piece of evidence that the main asteroid belt hosts a population of bodies that were formed in the outskirt of the Solar System., Comment: 12 pages, 5 figures, 1 tables, Accepted for publication in ApJ Letters

Published

2021

7. The rarity of very red TNOs in the scattered disk

Author

Ali-Dib, Mohamad, Marsset, Michael, Wong, Wing-Cheung, Dbouk, Rola, Ali-Dib, Mohamad, Marsset, Michael, Wong, Wing-Cheung, and Dbouk, Rola

Abstract

We investigate the origins of the photometrically Very Red and Less Red Trans-Neptunian Objects. We first reanalyse the dataset of Marsset et al. 2019 and find that, in addition to the known color-inclination correlation in hot TNOs, a similar trend exists for color-eccentricity. We show that VR TNOs are sharply constrained to eccentricities < 0.42 and inclinations < 21 deg, leading to a paucity of VR scattered disk and distant MMR objects. We then interpret these findings using N-body simulations accounting for Neptune's outward migration into a massless particles disk, and find that these observations are best reproduced with a LR-to-VR color transition line between 38 and 42 AU in the primordial disk, separating the objects' formation locations. For an initial surface density profile $\Sigma \propto 1/r^2$, a color transition around 38 AU is needed to explain the high abundance of VR plutinos but creates too many VR scattered disk objects, while a transition line around 42 AU seems to better reproduces the scattered disk colors but creates virtually no VR plutinos. Our simulations furthermore show that the rarity of VR particles at high eccentricity is possibly due to the absence of sweeping higher order MMRs, and secular resonances, beyond 42 AU. Inspecting individual populations, we show that the majority of VR SDOs originate as objects trapped in Neptune's second and third order MMRs. These then evolve due to diffusion, scattering, Kozai-Lidov cycles, and secular resonances into their current orbits. Future unbiased color surveys are crucial to better constrain the TNOs dynamical origins., Comment: Accepted for publication in The Astronomical Journal. 25 pages, 15 figures

Published

2021

8. Col-OSSOS: The Distinct Colour Distribution of Single and Binary Cold Classical KBOs

Author

Fraser, Wesley C., Benecchi, Susan D., Kavelaars, JJ, Marsset, Michael, Pike, Rosemary, Bannister, Michele T., Schwamb, Megan E., Volk, Kathryn, Nesvorny, David, Alexandersen, Mike, Chen, Ying-Tung, Gwyn, Stephen, Lehner, Matthew J., Wang, Shiang-Yu, Fraser, Wesley C., Benecchi, Susan D., Kavelaars, JJ, Marsset, Michael, Pike, Rosemary, Bannister, Michele T., Schwamb, Megan E., Volk, Kathryn, Nesvorny, David, Alexandersen, Mike, Chen, Ying-Tung, Gwyn, Stephen, Lehner, Matthew J., and Wang, Shiang-Yu

Abstract

The cold classical Kuiper Belt Objects (KBOs) possess a high, $\gtrsim30\%$ binary fraction. Widely separated and dynamically fragile, these binary systems have been useful in tracing the origins of KBOs. A new class of binaries was recently identified by their colours. The so-called blue binaries are unanimously members of the less red compositional class, and exhibit a 100% binary fraction. They appear to be push-out survivors, emplaced in the classical region during Neptune's phases of outward migration. The presence of these binary systems implies that the majority of objects that formed near the cold classical region formed as binaries. Here we present new optical colour measurements of cold classical KBOs from the Colours of the Outer Solar System Origins Survey, including colours of a blue binary discovered by the Solar System Origins Legacy Survey -- 2015 RJ277. The increased size of the colours sample has resulted in order-of-magnitude decrease in the probability that the binaries and singles sample share the same colour distribution. From the Anderson-Darling statistic, this probability is only a 0.3%, while it is only 0.002% when utilizing the difference of means statistic. We find a hint that the blue binaries have inflated free inclinations compared to their red counterparts, consistent with the push-out origin for these bodies., Comment: Accepted for publication in the PSJ. 4 Figures

Published

2021

9. Twenty years of SpeX: Accuracy limits of spectral slope measurements in asteroid spectroscopy

Author

Marsset, Michael, DeMeo, Francesca E., Binzel, Richard P., Bus, Schelte J., Burbine, Thomas H., Burt, Brian, Moskovitz, Nicholas, Polishook, David, Rivkin, Andrew S., Slivan, Stephen M., Thomas, Cristina, Marsset, Michael, DeMeo, Francesca E., Binzel, Richard P., Bus, Schelte J., Burbine, Thomas H., Burt, Brian, Moskovitz, Nicholas, Polishook, David, Rivkin, Andrew S., Slivan, Stephen M., and Thomas, Cristina

Abstract

We examined two decades of SpeX/NASA Infrared Telescope Facility observations from the Small Main-Belt Asteroid Spectroscopic Survey (SMASS) and the MIT-Hawaii Near-Earth Object Spectroscopic Survey (MITHNEOS) to investigate uncertainties and systematic errors in reflectance spectral slope measurements of asteroids. From 628 spectra of 11 solar analogs used for calibration of the asteroid spectra, we derived an uncertainty of 4.2%/micron on slope measurements over 0.8 to 2.4 micron. Air mass contributes to -0.92%/micron per 0.1 unit air mass difference between the asteroid and the solar analog, and therefore for an overall 2.8%/micron slope variability in SMASS and MITHNEOS designed to operate within 1.0 to 1.3 air mass. No additional observing conditions (including parallactic angle, seeing and humidity) were found to contribute systematically to slope change. We discuss implications for asteroid taxonomic classification works. Uncertainties provided in this study should be accounted for in future compositional investigation of small bodies to distinguish intrinsic heterogeneities from possible instrumental effects., Comment: 15 pages, 11 figures, accepted for publication in ApJS

Published

2020

10. Interstellar comet 2I/Borisov as seen by MUSE: C$_2$, NH$_2$ and red CN detections

Author

Bannister, Michele T., Opitom, Cyrielle, Fitzsimmons, Alan, Moulane, Youssef, Jehin, Emmanuel, Seligman, Darryl, Rousselot, Philippe, Knight, Matthew M., Marsset, Michael, Schwamb, Megan E., Guilbert-Lepoutre, Aurélie, Jorda, Laurent, Vernazza, Pierre, Benkhaldoun, Zouhair, Bannister, Michele T., Opitom, Cyrielle, Fitzsimmons, Alan, Moulane, Youssef, Jehin, Emmanuel, Seligman, Darryl, Rousselot, Philippe, Knight, Matthew M., Marsset, Michael, Schwamb, Megan E., Guilbert-Lepoutre, Aurélie, Jorda, Laurent, Vernazza, Pierre, and Benkhaldoun, Zouhair

Abstract

We report the clear detection of C$_2$ and of abundant NH$_2$ in the first prominently active interstellar comet, 2I/Borisov. We observed 2I on three nights in November 2019 at optical wavelengths 4800--9300 \AA with the Multi-Unit Spectroscopic Explorer (MUSE) integral-field spectrograph on the ESO/Very Large Telescope. These data, together with observations close in time from both 0.6-m TRAPPIST telescopes, provide constraints on the production rates of species of gas in 2I's coma. From the MUSE detection on all epochs of several bands of the optical emission of the C$_2$ Swan system, a rich emission spectrum of NH$_2$ with many highly visible bands, and the red (1-0) bandhead of CN, together with violet CN detections by TRAPPIST, we infer production rates of $Q$(C$_2$) = $1.1\times10^{24}$ mol s$^{-1}$, $Q$(NH$_2$) = $4.8\times10^{24}$ mol s$^{-1}$ and $Q$(CN) = $(1.8\pm0.2)\times 10^{24}$ mol s$^{-1}$. In late November at 2.03~au, 2I had a production ratio of C$_2$/CN$=0.61$, only barely carbon-chain depleted, in contrast to earlier reports measured further from the Sun of strong carbon-chain depletion. Thus, 2I has shown evolution in its C$_2$ production rate: a parent molecule reservoir has started sublimating. At $Q$(NH$_2$)/$Q$(CN) = 2.7, this second interstellar object is enriched in NH$_2$, relative to the known Solar System sample., Comment: 5 figures. Submitted to AAS Journals

Published

2020

11. Twenty years of SpeX: Accuracy limits of spectral slope measurements in asteroid spectroscopy

Author

Marsset, Michael, DeMeo, Francesca E., Binzel, Richard P., Bus, Schelte J., Burbine, Thomas H., Burt, Brian, Moskovitz, Nicholas, Polishook, David, Rivkin, Andrew S., Slivan, Stephen M., Thomas, Cristina, Marsset, Michael, DeMeo, Francesca E., Binzel, Richard P., Bus, Schelte J., Burbine, Thomas H., Burt, Brian, Moskovitz, Nicholas, Polishook, David, Rivkin, Andrew S., Slivan, Stephen M., and Thomas, Cristina

Abstract

We examined two decades of SpeX/NASA Infrared Telescope Facility observations from the Small Main-Belt Asteroid Spectroscopic Survey (SMASS) and the MIT-Hawaii Near-Earth Object Spectroscopic Survey (MITHNEOS) to investigate uncertainties and systematic errors in reflectance spectral slope measurements of asteroids. From 628 spectra of 11 solar analogs used for calibration of the asteroid spectra, we derived an uncertainty of 4.2%/micron on slope measurements over 0.8 to 2.4 micron. Air mass contributes to -0.92%/micron per 0.1 unit air mass difference between the asteroid and the solar analog, and therefore for an overall 2.8%/micron slope variability in SMASS and MITHNEOS designed to operate within 1.0 to 1.3 air mass. No additional observing conditions (including parallactic angle, seeing and humidity) were found to contribute systematically to slope change. We discuss implications for asteroid taxonomic classification works. Uncertainties provided in this study should be accounted for in future compositional investigation of small bodies to distinguish intrinsic heterogeneities from possible instrumental effects., Comment: 15 pages, 11 figures, accepted for publication in ApJS

Published

2020

12. Interstellar comet 2I/Borisov as seen by MUSE: C$_2$, NH$_2$ and red CN detections

Author

Bannister, Michele T., Opitom, Cyrielle, Fitzsimmons, Alan, Moulane, Youssef, Jehin, Emmanuel, Seligman, Darryl, Rousselot, Philippe, Knight, Matthew M., Marsset, Michael, Schwamb, Megan E., Guilbert-Lepoutre, Aurélie, Jorda, Laurent, Vernazza, Pierre, Benkhaldoun, Zouhair, Bannister, Michele T., Opitom, Cyrielle, Fitzsimmons, Alan, Moulane, Youssef, Jehin, Emmanuel, Seligman, Darryl, Rousselot, Philippe, Knight, Matthew M., Marsset, Michael, Schwamb, Megan E., Guilbert-Lepoutre, Aurélie, Jorda, Laurent, Vernazza, Pierre, and Benkhaldoun, Zouhair

Abstract

We report the clear detection of C$_2$ and of abundant NH$_2$ in the first prominently active interstellar comet, 2I/Borisov. We observed 2I on three nights in November 2019 at optical wavelengths 4800--9300 \AA with the Multi-Unit Spectroscopic Explorer (MUSE) integral-field spectrograph on the ESO/Very Large Telescope. These data, together with observations close in time from both 0.6-m TRAPPIST telescopes, provide constraints on the production rates of species of gas in 2I's coma. From the MUSE detection on all epochs of several bands of the optical emission of the C$_2$ Swan system, a rich emission spectrum of NH$_2$ with many highly visible bands, and the red (1-0) bandhead of CN, together with violet CN detections by TRAPPIST, we infer production rates of $Q$(C$_2$) = $1.1\times10^{24}$ mol s$^{-1}$, $Q$(NH$_2$) = $4.8\times10^{24}$ mol s$^{-1}$ and $Q$(CN) = $(1.8\pm0.2)\times 10^{24}$ mol s$^{-1}$. In late November at 2.03~au, 2I had a production ratio of C$_2$/CN$=0.61$, only barely carbon-chain depleted, in contrast to earlier reports measured further from the Sun of strong carbon-chain depletion. Thus, 2I has shown evolution in its C$_2$ production rate: a parent molecule reservoir has started sublimating. At $Q$(NH$_2$)/$Q$(CN) = 2.7, this second interstellar object is enriched in NH$_2$, relative to the known Solar System sample., Comment: 5 figures. Submitted to AAS Journals

Published

2020

13. Active asteroid (6478) Gault: a blue Q-type surface below the dust?

Author

Marsset, Michael, DeMeo, Francesca, Sonka, Adrian, Birlan, Mirel, Polishook, David, Burt, Brian, Binzel, Richard P., Bus, Shelte J., Thomas, Cristina, Marsset, Michael, DeMeo, Francesca, Sonka, Adrian, Birlan, Mirel, Polishook, David, Burt, Brian, Binzel, Richard P., Bus, Shelte J., and Thomas, Cristina

Abstract

We present near-infrared spectroscopy of the sporadically active asteroid (6478) Gault collected on the 3 m NASA/Infrared Telescope Facility observatory in late 2019 March/early April. Long-exposure imaging with the 0.5 m NEEMO T05 telescope and previously published data simultaneously monitored the asteroid activity, providing context for our measurements. We confirm Gault is a silicate-rich (Q- or S-type) object likely linked to the (25) Phocaea collisional family. The asteroid exhibits substantial spectral variability over the 0.75-2.45 $\mu$m wavelength range, from unusual blue (s'=-13.5+/-1.1% $\mu$m-1 to typical red (s'=+9.1+/-1.2% $\mu$m-1) spectral slope, that does not seem to correlate with activity. Spectral comparisons with samples of ordinary chondrite meteorites suggest that the blue color relates to the partial loss of the asteroid dust regolith, exposing a fresh, dust-free material at its surface. The existence of asteroids rotating close to rotational break-up limit and having similar spectral properties as Gault further supports this interpretation. Future spectroscopic observations of Gault, when the tails dissipate, will help further testing of our proposed hypothesis., Comment: 8 pages, 5 figures, 2 tables, accepted for publication in ApJL

Published

2019

14. Active asteroid (6478) Gault: a blue Q-type surface below the dust?

Author

Marsset, Michael, DeMeo, Francesca, Sonka, Adrian, Birlan, Mirel, Polishook, David, Burt, Brian, Binzel, Richard P., Bus, Shelte J., Thomas, Cristina, Marsset, Michael, DeMeo, Francesca, Sonka, Adrian, Birlan, Mirel, Polishook, David, Burt, Brian, Binzel, Richard P., Bus, Shelte J., and Thomas, Cristina

Abstract

We present near-infrared spectroscopy of the sporadically active asteroid (6478) Gault collected on the 3 m NASA/Infrared Telescope Facility observatory in late 2019 March/early April. Long-exposure imaging with the 0.5 m NEEMO T05 telescope and previously published data simultaneously monitored the asteroid activity, providing context for our measurements. We confirm Gault is a silicate-rich (Q- or S-type) object likely linked to the (25) Phocaea collisional family. The asteroid exhibits substantial spectral variability over the 0.75-2.45 $\mu$m wavelength range, from unusual blue (s'=-13.5+/-1.1% $\mu$m-1 to typical red (s'=+9.1+/-1.2% $\mu$m-1) spectral slope, that does not seem to correlate with activity. Spectral comparisons with samples of ordinary chondrite meteorites suggest that the blue color relates to the partial loss of the asteroid dust regolith, exposing a fresh, dust-free material at its surface. The existence of asteroids rotating close to rotational break-up limit and having similar spectral properties as Gault further supports this interpretation. Future spectroscopic observations of Gault, when the tails dissipate, will help further testing of our proposed hypothesis., Comment: 8 pages, 5 figures, 2 tables, accepted for publication in ApJL

Published

2019

15. Col-OSSOS: Color and Inclination are Correlated Throughout the Kuiper Belt

Author

Marsset, Michael, Fraser, Wesley C., Pike, Rosemary E., Bannister, Michele T., Schwamb, Megan E., Volk, Kathryn, Kavelaars, J. J., Alexandersen, Mike, Chen, Ying-Tung, Gladman, Brett J., Gwyn, Stephen D. J., Lehner, Matthew J., Peixinho, Nuno, Petit, Jean-Marc, Wang, Shiang-Yu, Marsset, Michael, Fraser, Wesley C., Pike, Rosemary E., Bannister, Michele T., Schwamb, Megan E., Volk, Kathryn, Kavelaars, J. J., Alexandersen, Mike, Chen, Ying-Tung, Gladman, Brett J., Gwyn, Stephen D. J., Lehner, Matthew J., Peixinho, Nuno, Petit, Jean-Marc, and Wang, Shiang-Yu

Abstract

Both physical and dynamical properties must be considered to constrain the origins of the dynamically excited distant Solar System populations. We present high-precision (g-r) colors for 25 small (Hr>5) dynamically excited Trans-Neptunian Objects (TNOs) and centaurs acquired as part of the Colours of the Outer Solar System Origins Survey (Col-OSSOS). We combine our dataset with previously published measurements and consider a set of 229 colors of outer Solar System objects on dynamically excited orbits. The overall color distribution is bimodal and can be decomposed into two distinct classes, termed `gray' and `red', that each has a normal color distribution. The two color classes have different inclination distributions: red objects have lower inclinations than the gray ones. This trend holds for all dynamically excited TNO populations. Even in the worst-case scenario, biases in the discovery surveys cannot account for this trend: it is intrinsic to the TNO population. Considering that TNOs are the precursors of centaurs, and that their inclinations are roughly preserved as they become centaurs, our finding solves the conundrum of centaurs being the only outer Solar System population identified so far to exhibit this property (Tegler et al. 2016). The different orbital distributions of the gray and red dynamically excited TNOs provide strong evidence that their colors are due to different formation locations in a disk of planetesimals with a compositional gradient., Comment: 24 pages, 5 figures, accepted for publication in AJ

Published

2018

16. Col-OSSOS: The Colours of the Outer Solar System Origins Survey

Author

Schwamb, Megan E., Fraser, Wesley C., Bannister, Michele T., Marsset, Michael, Pike, Rosemary E., Kavelaars, J. J., Benecchi, Susan D., Lehner, Matthew J., Wang, Shiang-Yu, Thirouin, Audrey, Delsanti, Audrey, Peixinho, Nuno, Volk, Kathryn, Alexandersen, Mike, Chen, Ying-Tung, Gladman, Brett, Gwyn, Stephen D. J., Petit, Jean-Marc, Schwamb, Megan E., Fraser, Wesley C., Bannister, Michele T., Marsset, Michael, Pike, Rosemary E., Kavelaars, J. J., Benecchi, Susan D., Lehner, Matthew J., Wang, Shiang-Yu, Thirouin, Audrey, Delsanti, Audrey, Peixinho, Nuno, Volk, Kathryn, Alexandersen, Mike, Chen, Ying-Tung, Gladman, Brett, Gwyn, Stephen D. J., and Petit, Jean-Marc

Abstract

The Colours of the Outer Solar System Origins Survey (Col-OSSOS) is acquiring near-simultaneous $g$, $r$, and $J$ photometry of unprecedented precision with the Gemini North Telescope, targeting nearly a hundred trans-Neptunian objects (TNOs) brighter than $m_r=23.6$ mag discovered in the Outer Solar System Origins Survey. Combining the optical and near-infrared photometry with the well-characterized detection efficiency of the Col-OSSOS target sample will provide the first flux-limited compositional dynamical map of the outer Solar System. In this paper, we describe our observing strategy and detail the data reduction processes we employ, including techniques to mitigate the impact of rotational variability. We present optical and near-infrared colors for 35 TNOs. We find two taxonomic groups for the dynamically excited TNOs, the neutral and red classes, which divide at $g-r \simeq 0.75$. Based on simple albedo and orbital distribution assumptions, we find that the neutral class outnumbers the red class, with a ratio of 4:1 and potentially as high as 11:1. Including in our analysis constraints from the cold classical objects, which are known to exhibit unique albedos and $r-z$ colors, we find that within our measurement uncertainty, our observations are consistent with the primordial Solar System protoplanetesimal disk being neutral-class-dominated, with two major compositional divisions in $grJ$ color space., Comment: Accepted to ApJS; on-line supplemental files will be available with the AJS published version of the paper

Published

2018

17. Col-OSSOS: Color and Inclination are Correlated Throughout the Kuiper Belt

Author

Marsset, Michael, Fraser, Wesley C., Pike, Rosemary E., Bannister, Michele T., Schwamb, Megan E., Volk, Kathryn, Kavelaars, J. J., Alexandersen, Mike, Chen, Ying-Tung, Gladman, Brett J., Gwyn, Stephen D. J., Lehner, Matthew J., Peixinho, Nuno, Petit, Jean-Marc, Wang, Shiang-Yu, Marsset, Michael, Fraser, Wesley C., Pike, Rosemary E., Bannister, Michele T., Schwamb, Megan E., Volk, Kathryn, Kavelaars, J. J., Alexandersen, Mike, Chen, Ying-Tung, Gladman, Brett J., Gwyn, Stephen D. J., Lehner, Matthew J., Peixinho, Nuno, Petit, Jean-Marc, and Wang, Shiang-Yu

Abstract

Both physical and dynamical properties must be considered to constrain the origins of the dynamically excited distant Solar System populations. We present high-precision (g-r) colors for 25 small (Hr>5) dynamically excited Trans-Neptunian Objects (TNOs) and centaurs acquired as part of the Colours of the Outer Solar System Origins Survey (Col-OSSOS). We combine our dataset with previously published measurements and consider a set of 229 colors of outer Solar System objects on dynamically excited orbits. The overall color distribution is bimodal and can be decomposed into two distinct classes, termed `gray' and `red', that each has a normal color distribution. The two color classes have different inclination distributions: red objects have lower inclinations than the gray ones. This trend holds for all dynamically excited TNO populations. Even in the worst-case scenario, biases in the discovery surveys cannot account for this trend: it is intrinsic to the TNO population. Considering that TNOs are the precursors of centaurs, and that their inclinations are roughly preserved as they become centaurs, our finding solves the conundrum of centaurs being the only outer Solar System population identified so far to exhibit this property (Tegler et al. 2016). The different orbital distributions of the gray and red dynamically excited TNOs provide strong evidence that their colors are due to different formation locations in a disk of planetesimals with a compositional gradient., Comment: 24 pages, 5 figures, accepted for publication in AJ

Published

2018

18. Col-OSSOS: The Colours of the Outer Solar System Origins Survey

Author

Schwamb, Megan E., Fraser, Wesley C., Bannister, Michele T., Marsset, Michael, Pike, Rosemary E., Kavelaars, J. J., Benecchi, Susan D., Lehner, Matthew J., Wang, Shiang-Yu, Thirouin, Audrey, Delsanti, Audrey, Peixinho, Nuno, Volk, Kathryn, Alexandersen, Mike, Chen, Ying-Tung, Gladman, Brett, Gwyn, Stephen D. J., Petit, Jean-Marc, Schwamb, Megan E., Fraser, Wesley C., Bannister, Michele T., Marsset, Michael, Pike, Rosemary E., Kavelaars, J. J., Benecchi, Susan D., Lehner, Matthew J., Wang, Shiang-Yu, Thirouin, Audrey, Delsanti, Audrey, Peixinho, Nuno, Volk, Kathryn, Alexandersen, Mike, Chen, Ying-Tung, Gladman, Brett, Gwyn, Stephen D. J., and Petit, Jean-Marc

Abstract

The Colours of the Outer Solar System Origins Survey (Col-OSSOS) is acquiring near-simultaneous $g$, $r$, and $J$ photometry of unprecedented precision with the Gemini North Telescope, targeting nearly a hundred trans-Neptunian objects (TNOs) brighter than $m_r=23.6$ mag discovered in the Outer Solar System Origins Survey. Combining the optical and near-infrared photometry with the well-characterized detection efficiency of the Col-OSSOS target sample will provide the first flux-limited compositional dynamical map of the outer Solar System. In this paper, we describe our observing strategy and detail the data reduction processes we employ, including techniques to mitigate the impact of rotational variability. We present optical and near-infrared colors for 35 TNOs. We find two taxonomic groups for the dynamically excited TNOs, the neutral and red classes, which divide at $g-r \simeq 0.75$. Based on simple albedo and orbital distribution assumptions, we find that the neutral class outnumbers the red class, with a ratio of 4:1 and potentially as high as 11:1. Including in our analysis constraints from the cold classical objects, which are known to exhibit unique albedos and $r-z$ colors, we find that within our measurement uncertainty, our observations are consistent with the primordial Solar System protoplanetesimal disk being neutral-class-dominated, with two major compositional divisions in $grJ$ color space., Comment: Accepted to ApJS; on-line supplemental files will be available with the AJS published version of the paper

Published

2018

19. Col-OSSOS: Colors of the Interstellar Planetesimal 1I/'Oumuamua

Author

Bannister, Michele T., Schwamb, Megan E., Fraser, Wesley C., Marsset, Michael, Fitzsimmons, Alan, Benecchi, Susan D., Lacerda, Pedro, Pike, Rosemary E., Kavelaars, J. J., Smith, Adam B., Stewart, Sunny O., Wang, Shiang-Yu, Lehner, Matthew J., Bannister, Michele T., Schwamb, Megan E., Fraser, Wesley C., Marsset, Michael, Fitzsimmons, Alan, Benecchi, Susan D., Lacerda, Pedro, Pike, Rosemary E., Kavelaars, J. J., Smith, Adam B., Stewart, Sunny O., Wang, Shiang-Yu, and Lehner, Matthew J.

Abstract

The recent discovery by Pan-STARRS1 of 1I/2017 U1 (`Oumuamua), on an unbound and hyperbolic orbit, offers a rare opportunity to explore the planetary formation processes of other stars, and the effect of the interstellar environment on a planetesimal surface. 1I/`Oumuamua's close encounter with the inner Solar System in 2017 October was a unique chance to make observations matching those used to characterize the small-body populations of our own Solar System. We present near-simultaneous g$^\prime$, r$^\prime$, and J photometry and colors of 1I/`Oumuamua from the 8.1-m Frederick C. Gillett Gemini North Telescope, and $gri$ photometry from the 4.2 m William Herschel Telescope. Our g$^\prime$r$^\prime$J observations are directly comparable to those from the high-precision Colours of the Outer Solar System Origins Survey (Col-OSSOS), which offer unique diagnostic information for distinguishing between outer Solar System surfaces. The J-band data also provide the highest signal-to-noise measurements made of 1I/`Oumuamua in the near-infrared. Substantial, correlated near-infrared and optical variability is present, with the same trend in both near-infrared and optical. Our observations are consistent with 1I/`Oumuamua rotating with a double-peaked period of $8.10 \pm 0.42$ hours and being a highly elongated body with an axial ratio of at least 5.3:1, implying that it has significant internal cohesion. The color of the first interstellar planetesimal is at the neutral end of the range of Solar System $g-r$ and $r-J$ solar-reflectance colors: it is like that of some dynamically excited objects in the Kuiper belt and the less-red Jupiter Trojans., Comment: Accepted to ApJL

Published

2017

20. Col-OSSOS: z Band Photometry Reveals Three Distinct TNO Surface Types

Author

Pike, Rosemary E., Fraser, Wesley C., Schwamb, Megan E., Kavelaars, JJ, Marsset, Michael, Bannister, Michele T., Lehner, Matthew J., Wang, Shiang-Yu, Alexandersen, Mike, Chen, Ying-Tung, Gladman, Brett J., Gwyn, Stephen, Petit, Jean-Marc, Volk, Kathryn, Pike, Rosemary E., Fraser, Wesley C., Schwamb, Megan E., Kavelaars, JJ, Marsset, Michael, Bannister, Michele T., Lehner, Matthew J., Wang, Shiang-Yu, Alexandersen, Mike, Chen, Ying-Tung, Gladman, Brett J., Gwyn, Stephen, Petit, Jean-Marc, and Volk, Kathryn

Abstract

Several different classes of trans-Neptunian objects (TNOs) have been identified based on their optical and near-infrared colors. As part of the Colours of the Outer Solar System Origins Survey, we have obtained $g$, $r$, and $z$ band photometry of 26 TNOs using Subaru and Gemini Observatories. Previous color surveys have not utilized $z$ band reflectance, and the inclusion of this band reveals significant surface reflectance variations between sub-populations. The colors of TNOs in $g-r$ and $r-z$ show obvious structure, and appear consistent with the previously measured bi-modality in $g-r$. The distribution of colors of the two dynamically excited surface types can be modeled using the two-component mixing models from Fraser \& Brown (2012). With the combination of $g-r$ and $r-z$, the dynamically excited classes can be separated cleanly into red and neutral surface classes. In $g - r$ and $r - z$, the two dynamically excited surface groups are also clearly distinct from the cold classical TNO surfaces, which are red, with $g-r\gtrsim$0.85 and $r-z\lesssim$0.6, while all dynamically excited objects with similar $g-r$ colors exhibit redder $r-z$ colors. The $z$ band photometry makes it possible for the first time to differentiate the red excited TNO surfaces from the red cold classical TNO surfaces. The discovery of different $r-z$ colors for these cold classical TNOs makes it possible to search for cold classical surfaces in other regions of the Kuiper belt and to completely separate cold classical TNOs from the dynamically excited population, which overlaps in orbital parameter space., Comment: 11 pages, 2 figures, Accepted to AJ

Published

2017

21. All planetesimals born near the Kuiper Belt formed as binaries

Author

Fraser, Wesley C., Bannister, Michele t., Pike, Rosemary E., Marsset, Michael, Schwamb, Megan E., Kavelaars, J. J., Lacerda, Pedro, Nesvornyy, David, Volk, Kathryn, Delsanti, audrey, Benecchi, Susan, Lehner, Matthew J., Noll, Keith, Gladman, Brett, Petit, Jean-Marc, Gwyn, Stephen, Chen, Ying-tung, Wang, Shiang-Yu, Alexandersen, Mike, Burdullis, Todd, Sheppard, Scott, Trujillo, Chad, Fraser, Wesley C., Bannister, Michele t., Pike, Rosemary E., Marsset, Michael, Schwamb, Megan E., Kavelaars, J. J., Lacerda, Pedro, Nesvornyy, David, Volk, Kathryn, Delsanti, audrey, Benecchi, Susan, Lehner, Matthew J., Noll, Keith, Gladman, Brett, Petit, Jean-Marc, Gwyn, Stephen, Chen, Ying-tung, Wang, Shiang-Yu, Alexandersen, Mike, Burdullis, Todd, Sheppard, Scott, and Trujillo, Chad

Abstract

The cold classical Kuiper belt objects have low inclinations and eccentricities and are the only Kuiper belt population suspected to have formed in situ. Compared with the dynamically excited populations, which exhibit a broad range of colours and a low binary fraction of ~10% cold classical Kuiper belt objects typically have red optical colours with ~30% of the population found in binary pairs; the origin of these differences remains unclear. We report the detection of a population of blue-coloured, tenuously bound binaries residing among the cold classical Kuiper belt objects. Here we show that widely separated binaries could have survived push-out into the cold classical region during the early phases of Neptune's migration. The blue binaries may be contaminants, originating at ~38 au, and could provide a unique probe of the formative conditions in a region now nearly devoid of objects. The idea that the blue objects, which are predominantly binary, are the products of push-out requires that the planetesimals formed entirely as multiples. Plausible formation routes include planetesimal formation via pebble accretion and subsequent binary production through dynamic friction and binary formation during the collapse of a cloud of solids., Comment: 7 Figures, 3 tables, accepted to Nature Astronomy. Main manuscript and supplement available at http://www.nature.com/articles/s41550-017-0088

Published

2017

22. Col-OSSOS: Colors of the Interstellar Planetesimal 1I/'Oumuamua

Author

Bannister, Michele T., Schwamb, Megan E., Fraser, Wesley C., Marsset, Michael, Fitzsimmons, Alan, Benecchi, Susan D., Lacerda, Pedro, Pike, Rosemary E., Kavelaars, J. J., Smith, Adam B., Stewart, Sunny O., Wang, Shiang-Yu, Lehner, Matthew J., Bannister, Michele T., Schwamb, Megan E., Fraser, Wesley C., Marsset, Michael, Fitzsimmons, Alan, Benecchi, Susan D., Lacerda, Pedro, Pike, Rosemary E., Kavelaars, J. J., Smith, Adam B., Stewart, Sunny O., Wang, Shiang-Yu, and Lehner, Matthew J.

Abstract

The recent discovery by Pan-STARRS1 of 1I/2017 U1 (`Oumuamua), on an unbound and hyperbolic orbit, offers a rare opportunity to explore the planetary formation processes of other stars, and the effect of the interstellar environment on a planetesimal surface. 1I/`Oumuamua's close encounter with the inner Solar System in 2017 October was a unique chance to make observations matching those used to characterize the small-body populations of our own Solar System. We present near-simultaneous g$^\prime$, r$^\prime$, and J photometry and colors of 1I/`Oumuamua from the 8.1-m Frederick C. Gillett Gemini North Telescope, and $gri$ photometry from the 4.2 m William Herschel Telescope. Our g$^\prime$r$^\prime$J observations are directly comparable to those from the high-precision Colours of the Outer Solar System Origins Survey (Col-OSSOS), which offer unique diagnostic information for distinguishing between outer Solar System surfaces. The J-band data also provide the highest signal-to-noise measurements made of 1I/`Oumuamua in the near-infrared. Substantial, correlated near-infrared and optical variability is present, with the same trend in both near-infrared and optical. Our observations are consistent with 1I/`Oumuamua rotating with a double-peaked period of $8.10 \pm 0.42$ hours and being a highly elongated body with an axial ratio of at least 5.3:1, implying that it has significant internal cohesion. The color of the first interstellar planetesimal is at the neutral end of the range of Solar System $g-r$ and $r-J$ solar-reflectance colors: it is like that of some dynamically excited objects in the Kuiper belt and the less-red Jupiter Trojans., Comment: Accepted to ApJL

Published

2017

23. Col-OSSOS: z Band Photometry Reveals Three Distinct TNO Surface Types

Author

Pike, Rosemary E., Fraser, Wesley C., Schwamb, Megan E., Kavelaars, JJ, Marsset, Michael, Bannister, Michele T., Lehner, Matthew J., Wang, Shiang-Yu, Alexandersen, Mike, Chen, Ying-Tung, Gladman, Brett J., Gwyn, Stephen, Petit, Jean-Marc, Volk, Kathryn, Pike, Rosemary E., Fraser, Wesley C., Schwamb, Megan E., Kavelaars, JJ, Marsset, Michael, Bannister, Michele T., Lehner, Matthew J., Wang, Shiang-Yu, Alexandersen, Mike, Chen, Ying-Tung, Gladman, Brett J., Gwyn, Stephen, Petit, Jean-Marc, and Volk, Kathryn

Abstract

Several different classes of trans-Neptunian objects (TNOs) have been identified based on their optical and near-infrared colors. As part of the Colours of the Outer Solar System Origins Survey, we have obtained $g$, $r$, and $z$ band photometry of 26 TNOs using Subaru and Gemini Observatories. Previous color surveys have not utilized $z$ band reflectance, and the inclusion of this band reveals significant surface reflectance variations between sub-populations. The colors of TNOs in $g-r$ and $r-z$ show obvious structure, and appear consistent with the previously measured bi-modality in $g-r$. The distribution of colors of the two dynamically excited surface types can be modeled using the two-component mixing models from Fraser \& Brown (2012). With the combination of $g-r$ and $r-z$, the dynamically excited classes can be separated cleanly into red and neutral surface classes. In $g - r$ and $r - z$, the two dynamically excited surface groups are also clearly distinct from the cold classical TNO surfaces, which are red, with $g-r\gtrsim$0.85 and $r-z\lesssim$0.6, while all dynamically excited objects with similar $g-r$ colors exhibit redder $r-z$ colors. The $z$ band photometry makes it possible for the first time to differentiate the red excited TNO surfaces from the red cold classical TNO surfaces. The discovery of different $r-z$ colors for these cold classical TNOs makes it possible to search for cold classical surfaces in other regions of the Kuiper belt and to completely separate cold classical TNOs from the dynamically excited population, which overlaps in orbital parameter space., Comment: 11 pages, 2 figures, Accepted to AJ

Published

2017

24. All planetesimals born near the Kuiper Belt formed as binaries

Author

Fraser, Wesley C., Bannister, Michele t., Pike, Rosemary E., Marsset, Michael, Schwamb, Megan E., Kavelaars, J. J., Lacerda, Pedro, Nesvornyy, David, Volk, Kathryn, Delsanti, audrey, Benecchi, Susan, Lehner, Matthew J., Noll, Keith, Gladman, Brett, Petit, Jean-Marc, Gwyn, Stephen, Chen, Ying-tung, Wang, Shiang-Yu, Alexandersen, Mike, Burdullis, Todd, Sheppard, Scott, Trujillo, Chad, Fraser, Wesley C., Bannister, Michele t., Pike, Rosemary E., Marsset, Michael, Schwamb, Megan E., Kavelaars, J. J., Lacerda, Pedro, Nesvornyy, David, Volk, Kathryn, Delsanti, audrey, Benecchi, Susan, Lehner, Matthew J., Noll, Keith, Gladman, Brett, Petit, Jean-Marc, Gwyn, Stephen, Chen, Ying-tung, Wang, Shiang-Yu, Alexandersen, Mike, Burdullis, Todd, Sheppard, Scott, and Trujillo, Chad

Abstract

The cold classical Kuiper belt objects have low inclinations and eccentricities and are the only Kuiper belt population suspected to have formed in situ. Compared with the dynamically excited populations, which exhibit a broad range of colours and a low binary fraction of ~10% cold classical Kuiper belt objects typically have red optical colours with ~30% of the population found in binary pairs; the origin of these differences remains unclear. We report the detection of a population of blue-coloured, tenuously bound binaries residing among the cold classical Kuiper belt objects. Here we show that widely separated binaries could have survived push-out into the cold classical region during the early phases of Neptune's migration. The blue binaries may be contaminants, originating at ~38 au, and could provide a unique probe of the formative conditions in a region now nearly devoid of objects. The idea that the blue objects, which are predominantly binary, are the products of push-out requires that the planetesimals formed entirely as multiples. Plausible formation routes include planetesimal formation via pebble accretion and subsequent binary production through dynamic friction and binary formation during the collapse of a cloud of solids., Comment: 7 Figures, 3 tables, accepted to Nature Astronomy. Main manuscript and supplement available at http://www.nature.com/articles/s41550-017-0088

Published

2017

25. TRIPPy: Trailed Image Photometry in Python

Author

Fraser, Wesley C., Alexandersen, Mike, Schwamb, Megan E., Marsset, Michael E., Pike, Rosemary E., Kavelaars, JJ, Bannister, Michele T., Benecchi, Susan, Delsanti, Audrey, Fraser, Wesley C., Alexandersen, Mike, Schwamb, Megan E., Marsset, Michael E., Pike, Rosemary E., Kavelaars, JJ, Bannister, Michele T., Benecchi, Susan, and Delsanti, Audrey

Abstract

Photometry of moving sources typically suffers from reduced signal-to-noise (SNR) or flux measurements biased to incorrect low values through the use of circular apertures. To address this issue we present the software package, TRIPPy: TRailed Image Photometry in Python. TRIPPy introduces the pill aperture, which is the natural extension of the circular aperture appropriate for linearly trailed sources. The pill shape is a rectangle with two semicircular end-caps, and is described by three parameters, the trail length and angle, and the radius. The TRIPPy software package also includes a new technique to generate accurate model point-spread functions (PSF) and trailed point-spread functions (TSF) from stationary background sources in sidereally tracked images. The TSF is merely the convolution of the model PSF, which consists of a moffat profile, and super sampled lookup table. From the TSF, accurate pill aperture corrections can be estimated as a function of pill radius with a accuracy of 10 millimags for highly trailed sources. Analogous to the use of small circular apertures and associated aperture corrections, small radius pill apertures can be used to preserve signal-to-noise of low flux sources, with appropriate aperture correction applied to provide an accurate, unbiased flux measurement at all SNR., Comment: 8 Figures, 11 Pages, Accepted to the Astronomical Journal

Published

2016

26. OSSOS: IV. Discovery of a dwarf planet candidate in the 9:2 resonance with Neptune

Author

Bannister, Michele T., Alexandersen, Mike, Benecchi, Susan D., Chen, Ying-Tung, Delsanti, Audrey, Fraser, Wesley C., Gladman, Brett J., Granvik, Mikael, Grundy, Will M., Guilbert-Lepoutre, Aurelie, Gwyn, Stephen D. J., Ip, Wing-Huen, Jakubik, Marian, Jones, R. Lynne, Kaib, Nathan, Kavelaars, J. J., Lacerda, Pedro, Lawler, Samantha, Lehner, Matthew J., Lin, Hsing Wen, Lykawka, Patryk Sofia, Marsset, Michael, Murray-Clay, Ruth, Noll, Keith S., Parker, Alex, Petit, Jean-Marc, Pike, Rosemary E., Rousselot, Philippe, Schwamb, Megan E., Shankman, Cory, Veres, Peter, Vernazza, Pierre, Volk, Kathryn, Wang, Shiang-Yu, Weryk, Robert, Bannister, Michele T., Alexandersen, Mike, Benecchi, Susan D., Chen, Ying-Tung, Delsanti, Audrey, Fraser, Wesley C., Gladman, Brett J., Granvik, Mikael, Grundy, Will M., Guilbert-Lepoutre, Aurelie, Gwyn, Stephen D. J., Ip, Wing-Huen, Jakubik, Marian, Jones, R. Lynne, Kaib, Nathan, Kavelaars, J. J., Lacerda, Pedro, Lawler, Samantha, Lehner, Matthew J., Lin, Hsing Wen, Lykawka, Patryk Sofia, Marsset, Michael, Murray-Clay, Ruth, Noll, Keith S., Parker, Alex, Petit, Jean-Marc, Pike, Rosemary E., Rousselot, Philippe, Schwamb, Megan E., Shankman, Cory, Veres, Peter, Vernazza, Pierre, Volk, Kathryn, Wang, Shiang-Yu, and Weryk, Robert

Abstract

We report the discovery and orbit of a new dwarf planet candidate, 2015 RR$_{245}$, by the Outer Solar System Origins Survey (OSSOS). 2015 RR$_{245}$'s orbit is eccentric ($e=0.586$), with a semi-major axis near 82 au, yielding a perihelion distance of 34 au. 2015 RR$_{245}$ has $g-r = 0.59 \pm 0.11$ and absolute magnitude $H_{r} = 3.6 \pm 0.1$; for an assumed albedo of $p_V = 12$% the object has a diameter of $\sim670$ km. Based on astrometric measurements from OSSOS and Pan-STARRS1, we find that 2015 RR$_{245}$ is securely trapped on ten-Myr timescales in the 9:2 mean-motion resonance with Neptune. It is the first TNO identified in this resonance. On hundred-Myr timescales, particles in 2015 RR$_{245}$-like orbits depart and sometimes return to the resonance, indicating that 2015 RR$_{245}$ likely forms part of the long-lived metastable population of distant TNOs that drift between resonance sticking and actively scattering via gravitational encounters with Neptune. The discovery of a 9:2 TNO stresses the role of resonances in the long-term evolution of objects in the scattering disk, and reinforces the view that distant resonances are heavily populated in the current Solar System. This object further motivates detailed modelling of the transient sticking population., Comment: Accepted to AJ

Published

2016

27. OSSOS. IV. DISCOVERY OF A DWARF PLANET CANDIDATE IN THE 9

Author

University of Helsinki, Department of Physics, Bannister, Michele T., Alexandersen, Mike, Benecchi, Susan D., Chen, Ying-Tung, Delsanti, Audrey, Fraser, Wesley C., Gladman, Brett J., Granvik, Mikael, Grundy, Will M., Guilbert-Lepoutre, Aurelie, Gwyn, Stephen D. J., Ip, Wing-Huen, Jakubik, Marian, Jones, R. Lynne, Kaib, Nathan, Kavelaars, J. J., Lacerda, Pedro, Lawler, Samantha, Lehner, Matthew J., Lin, Hsing Wen, Lykawka, Patryk Sofia, Marsset, Michael, Murray-Clay, Ruth, Noll, Keith S., Parker, Alex, Petit, Jean-Marc, Pike, Rosemary E., Rousselot, Philippe, Schwamb, Megan E., Shankman, Cory, Veres, Peter, Vernazza, Pierre, Volk, Kathryn, Wang, Shiang-Yu, Weryk, Robert, University of Helsinki, Department of Physics, Bannister, Michele T., Alexandersen, Mike, Benecchi, Susan D., Chen, Ying-Tung, Delsanti, Audrey, Fraser, Wesley C., Gladman, Brett J., Granvik, Mikael, Grundy, Will M., Guilbert-Lepoutre, Aurelie, Gwyn, Stephen D. J., Ip, Wing-Huen, Jakubik, Marian, Jones, R. Lynne, Kaib, Nathan, Kavelaars, J. J., Lacerda, Pedro, Lawler, Samantha, Lehner, Matthew J., Lin, Hsing Wen, Lykawka, Patryk Sofia, Marsset, Michael, Murray-Clay, Ruth, Noll, Keith S., Parker, Alex, Petit, Jean-Marc, Pike, Rosemary E., Rousselot, Philippe, Schwamb, Megan E., Shankman, Cory, Veres, Peter, Vernazza, Pierre, Volk, Kathryn, Wang, Shiang-Yu, and Weryk, Robert

Abstract

We report the discovery and orbit of a new dwarf planet candidate, 2015 RR245, by the Outer Solar System Origins Survey (OSSOS). The orbit of 2015 RR245 is eccentric (e = 0.586), with a semimajor axis near 82 au, yielding a perihelion distance of 34 au. 2015 RR245 has g - r = 0.59 +/- 0.11 and absolute magnitude H-r = 3.6 +/- 0.1; for an assumed albedo of p(V) = 12%, the object has a diameter of similar to 670. km. Based on astrometric measurements from OSSOS and Pan-STARRS1, we find that 2015 RR245 is securely trapped on ten-megayear timescales in the 9: 2 mean-motion resonance with Neptune. It is the first trans-Neptunian object (TNO) identified in this resonance. On hundred-megayear. timescales, particles in 2015 RR245-like orbits depart and sometimes return to the resonance, indicating that 2015 RR245 likely forms part of the long-lived metastable population of distant TNOs that drift between resonance sticking and actively scattering via gravitational encounters with Neptune. The discovery of a 9: 2 TNO stresses the role of resonances in the long-term evolution of objects in the scattering disk. and reinforces the view that distant resonances are heavily populated in the current solar system. This object further motivates detailed modeling of the transient sticking population.

Published

2016

28. OSSOS: IV. Discovery of a dwarf planet candidate in the 9:2 resonance with Neptune

Author

Bannister, Michele T., Alexandersen, Mike, Benecchi, Susan D., Chen, Ying-Tung, Delsanti, Audrey, Fraser, Wesley C., Gladman, Brett J., Granvik, Mikael, Grundy, Will M., Guilbert-Lepoutre, Aurelie, Gwyn, Stephen D. J., Ip, Wing-Huen, Jakubik, Marian, Jones, R. Lynne, Kaib, Nathan, Kavelaars, J. J., Lacerda, Pedro, Lawler, Samantha, Lehner, Matthew J., Lin, Hsing Wen, Lykawka, Patryk Sofia, Marsset, Michael, Murray-Clay, Ruth, Noll, Keith S., Parker, Alex, Petit, Jean-Marc, Pike, Rosemary E., Rousselot, Philippe, Schwamb, Megan E., Shankman, Cory, Veres, Peter, Vernazza, Pierre, Volk, Kathryn, Wang, Shiang-Yu, Weryk, Robert, Bannister, Michele T., Alexandersen, Mike, Benecchi, Susan D., Chen, Ying-Tung, Delsanti, Audrey, Fraser, Wesley C., Gladman, Brett J., Granvik, Mikael, Grundy, Will M., Guilbert-Lepoutre, Aurelie, Gwyn, Stephen D. J., Ip, Wing-Huen, Jakubik, Marian, Jones, R. Lynne, Kaib, Nathan, Kavelaars, J. J., Lacerda, Pedro, Lawler, Samantha, Lehner, Matthew J., Lin, Hsing Wen, Lykawka, Patryk Sofia, Marsset, Michael, Murray-Clay, Ruth, Noll, Keith S., Parker, Alex, Petit, Jean-Marc, Pike, Rosemary E., Rousselot, Philippe, Schwamb, Megan E., Shankman, Cory, Veres, Peter, Vernazza, Pierre, Volk, Kathryn, Wang, Shiang-Yu, and Weryk, Robert

Abstract

We report the discovery and orbit of a new dwarf planet candidate, 2015 RR$_{245}$, by the Outer Solar System Origins Survey (OSSOS). 2015 RR$_{245}$'s orbit is eccentric ($e=0.586$), with a semi-major axis near 82 au, yielding a perihelion distance of 34 au. 2015 RR$_{245}$ has $g-r = 0.59 \pm 0.11$ and absolute magnitude $H_{r} = 3.6 \pm 0.1$; for an assumed albedo of $p_V = 12$% the object has a diameter of $\sim670$ km. Based on astrometric measurements from OSSOS and Pan-STARRS1, we find that 2015 RR$_{245}$ is securely trapped on ten-Myr timescales in the 9:2 mean-motion resonance with Neptune. It is the first TNO identified in this resonance. On hundred-Myr timescales, particles in 2015 RR$_{245}$-like orbits depart and sometimes return to the resonance, indicating that 2015 RR$_{245}$ likely forms part of the long-lived metastable population of distant TNOs that drift between resonance sticking and actively scattering via gravitational encounters with Neptune. The discovery of a 9:2 TNO stresses the role of resonances in the long-term evolution of objects in the scattering disk, and reinforces the view that distant resonances are heavily populated in the current Solar System. This object further motivates detailed modelling of the transient sticking population., Comment: Accepted to AJ

Published

2016

29. TRIPPy: Trailed Image Photometry in Python

Author

Fraser, Wesley C., Alexandersen, Mike, Schwamb, Megan E., Marsset, Michael E., Pike, Rosemary E., Kavelaars, JJ, Bannister, Michele T., Benecchi, Susan, Delsanti, Audrey, Fraser, Wesley C., Alexandersen, Mike, Schwamb, Megan E., Marsset, Michael E., Pike, Rosemary E., Kavelaars, JJ, Bannister, Michele T., Benecchi, Susan, and Delsanti, Audrey

Abstract

Photometry of moving sources typically suffers from reduced signal-to-noise (SNR) or flux measurements biased to incorrect low values through the use of circular apertures. To address this issue we present the software package, TRIPPy: TRailed Image Photometry in Python. TRIPPy introduces the pill aperture, which is the natural extension of the circular aperture appropriate for linearly trailed sources. The pill shape is a rectangle with two semicircular end-caps, and is described by three parameters, the trail length and angle, and the radius. The TRIPPy software package also includes a new technique to generate accurate model point-spread functions (PSF) and trailed point-spread functions (TSF) from stationary background sources in sidereally tracked images. The TSF is merely the convolution of the model PSF, which consists of a moffat profile, and super sampled lookup table. From the TSF, accurate pill aperture corrections can be estimated as a function of pill radius with a accuracy of 10 millimags for highly trailed sources. Analogous to the use of small circular apertures and associated aperture corrections, small radius pill apertures can be used to preserve signal-to-noise of low flux sources, with appropriate aperture correction applied to provide an accurate, unbiased flux measurement at all SNR., Comment: 8 Figures, 11 Pages, Accepted to the Astronomical Journal

Published

2016

30. The Outer Solar System Origins Survey: I. Design and First-Quarter Discoveries

Author

Bannister, Michele T., Kavelaars, J. J., Petit, Jean-Marc, Gladman, Brett J., Gwyn, Stephen D. J., Chen, Ying-Tung, Volk, Kathryn, Alexandersen, Mike, Benecchi, Susan, Delsanti, Audrey, Fraser, Wesley, Granvik, Mikael, Grundy, Will M., Guilbert-Lepoutre, Aurelie, Hestroffer, Daniel, Ip, Wing-Huen, Jakubik, Marian, Jones, Lynne, Kaib, Nathan, Kavelaars, Catherine F., Lacerda, Pedro, Lawler, Samantha, Lehner, Matthew J., Lin, Hsing Wen, Lister, Tim, Lykawka, Patryk Sofia, Monty, Stephanie, Marsset, Michael, Murray-Clay, Ruth, Noll, Keith, Parker, Alex, Pike, Rosemary E., Rousselot, Philippe, Rusk, David, Schwamb, Megan E., Shankman, Cory, Sicardy, Bruno, Vernazza, Pierre, Wang, Shiang-Yu, Bannister, Michele T., Kavelaars, J. J., Petit, Jean-Marc, Gladman, Brett J., Gwyn, Stephen D. J., Chen, Ying-Tung, Volk, Kathryn, Alexandersen, Mike, Benecchi, Susan, Delsanti, Audrey, Fraser, Wesley, Granvik, Mikael, Grundy, Will M., Guilbert-Lepoutre, Aurelie, Hestroffer, Daniel, Ip, Wing-Huen, Jakubik, Marian, Jones, Lynne, Kaib, Nathan, Kavelaars, Catherine F., Lacerda, Pedro, Lawler, Samantha, Lehner, Matthew J., Lin, Hsing Wen, Lister, Tim, Lykawka, Patryk Sofia, Monty, Stephanie, Marsset, Michael, Murray-Clay, Ruth, Noll, Keith, Parker, Alex, Pike, Rosemary E., Rousselot, Philippe, Rusk, David, Schwamb, Megan E., Shankman, Cory, Sicardy, Bruno, Vernazza, Pierre, and Wang, Shiang-Yu

Abstract

We report the discovery, tracking and detection circumstances for 85 trans-Neptunian objects (TNOs) from the first 42 deg$^{2}$ of the Outer Solar System Origins Survey (OSSOS). This ongoing $r$-band Solar System survey uses the 0.9 deg$^{2}$ field-of-view MegaPrime camera on the 3.6 m Canada-France-Hawaii Telescope. Our orbital elements for these TNOs are precise to a fractional semi-major axis uncertainty $<0.1\%$. We achieve this precision in just two oppositions, as compared to the normal 3-5 oppositions, via a dense observing cadence and innovative astrometric technique. These discoveries are free of ephemeris bias, a first for large trans-Neptunian surveys. We also provide the necessary information to enable models of TNO orbital distributions to be tested against our TNO sample. We confirm the existence of a cold "kernel" of objects within the main cold classical Kuiper belt, and infer the existence of an extension of the "stirred" cold classical Kuiper belt to at least several AU beyond the 2:1 mean motion resonance with Neptune. We find that the population model of Petit et al. (2011) remains a plausible representation of the Kuiper belt. The full survey, to be completed in 2017, will provide an exquisitely characterized sample of important resonant TNO populations, ideal for testing models of giant planet migration during the early history of the Solar System., Comment: Accepted to AJ, 27 April 2016. 59 pp

Published

2015

31. The Outer Solar System Origins Survey: I. Design and First-Quarter Discoveries

Author

Bannister, Michele T., Kavelaars, J. J., Petit, Jean-Marc, Gladman, Brett J., Gwyn, Stephen D. J., Chen, Ying-Tung, Volk, Kathryn, Alexandersen, Mike, Benecchi, Susan, Delsanti, Audrey, Fraser, Wesley, Granvik, Mikael, Grundy, Will M., Guilbert-Lepoutre, Aurelie, Hestroffer, Daniel, Ip, Wing-Huen, Jakubik, Marian, Jones, Lynne, Kaib, Nathan, Kavelaars, Catherine F., Lacerda, Pedro, Lawler, Samantha, Lehner, Matthew J., Lin, Hsing Wen, Lister, Tim, Lykawka, Patryk Sofia, Monty, Stephanie, Marsset, Michael, Murray-Clay, Ruth, Noll, Keith, Parker, Alex, Pike, Rosemary E., Rousselot, Philippe, Rusk, David, Schwamb, Megan E., Shankman, Cory, Sicardy, Bruno, Vernazza, Pierre, Wang, Shiang-Yu, Bannister, Michele T., Kavelaars, J. J., Petit, Jean-Marc, Gladman, Brett J., Gwyn, Stephen D. J., Chen, Ying-Tung, Volk, Kathryn, Alexandersen, Mike, Benecchi, Susan, Delsanti, Audrey, Fraser, Wesley, Granvik, Mikael, Grundy, Will M., Guilbert-Lepoutre, Aurelie, Hestroffer, Daniel, Ip, Wing-Huen, Jakubik, Marian, Jones, Lynne, Kaib, Nathan, Kavelaars, Catherine F., Lacerda, Pedro, Lawler, Samantha, Lehner, Matthew J., Lin, Hsing Wen, Lister, Tim, Lykawka, Patryk Sofia, Monty, Stephanie, Marsset, Michael, Murray-Clay, Ruth, Noll, Keith, Parker, Alex, Pike, Rosemary E., Rousselot, Philippe, Rusk, David, Schwamb, Megan E., Shankman, Cory, Sicardy, Bruno, Vernazza, Pierre, and Wang, Shiang-Yu

Abstract

We report the discovery, tracking and detection circumstances for 85 trans-Neptunian objects (TNOs) from the first 42 deg$^{2}$ of the Outer Solar System Origins Survey (OSSOS). This ongoing $r$-band Solar System survey uses the 0.9 deg$^{2}$ field-of-view MegaPrime camera on the 3.6 m Canada-France-Hawaii Telescope. Our orbital elements for these TNOs are precise to a fractional semi-major axis uncertainty $<0.1\%$. We achieve this precision in just two oppositions, as compared to the normal 3-5 oppositions, via a dense observing cadence and innovative astrometric technique. These discoveries are free of ephemeris bias, a first for large trans-Neptunian surveys. We also provide the necessary information to enable models of TNO orbital distributions to be tested against our TNO sample. We confirm the existence of a cold "kernel" of objects within the main cold classical Kuiper belt, and infer the existence of an extension of the "stirred" cold classical Kuiper belt to at least several AU beyond the 2:1 mean motion resonance with Neptune. We find that the population model of Petit et al. (2011) remains a plausible representation of the Kuiper belt. The full survey, to be completed in 2017, will provide an exquisitely characterized sample of important resonant TNO populations, ideal for testing models of giant planet migration during the early history of the Solar System., Comment: Accepted to AJ, 27 April 2016. 59 pp

Published

2015