Your search keyword '"Trigo-Rodríguez, Josep M."' showing total 405 results

1. Delivery of DART Impact Ejecta to Mars and Earth: Opportunity for Meteor Observations

Author

Peña-Asensio, Eloy, Küppers, Michael, Trigo-Rodríguez, Josep M., and Rimola, Albert

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

NASA's DART and ESA's Hera missions offer a unique opportunity to investigate the delivery of impact ejecta to other celestial bodies. We performed ejecta dynamical simulations using 3 million particles categorized into three size populations (10 cm, 0.5 cm, and 30 $\mu$m) and constrained by early post-impact LICIACube observations. The main simulation explored ejecta velocities ranging from 1 to 1,000 m/s, while a secondary simulation focused on faster ejecta with velocities from 1 to 2 km/s. We identified DART ejecta orbits compatible with the delivery of meteor-producing particles to Mars and Earth. Our results indicate the possibility of ejecta reaching the Mars Hill sphere in 13 years for launch velocities around 450 m/s, which is within the observed range. Some ejecta particles launched at 770 m/s could reach Mars's vicinity in 7 years. Faster ejecta resulted in a higher flux delivery towards Mars and particles impacting the Earth Hill sphere above 1.5 km/s. The delivery process is slightly sensitive to the initial observed cone range and driven by synodic periods. The launch locations for material delivery to Mars were predominantly northern the DART impact site, while they displayed a southwestern tendency for the Earth-Moon system. Larger particles exhibit a marginally greater likelihood of reaching Mars, while smaller particles favor delivery to Earth-Moon, although this effect is insignificant. To support observational campaigns for DART-created meteors, we provide comprehensive information on the encounter characteristics (orbital elements and radiants) and quantify the orbital decoherence degree of the released meteoroids., Comment: Accepted in Planetary Science Journal

Published

2024

2. Macro-scale roughness reveals the complex history of asteroids Didymos and Dimorphos

Author

Vincent, Jean-Baptiste, Asphaug, Erik, Barnouin, Olivier, Beccarelli, Joel, Benavidez, Paula G., Campo-Bagatin, Adriano, Chabot, Nancy L., Ernst, Carolyn M., Hasselmann, Pedro H., Hirabayashi, Masatoshi, Ieva, Simone, Karatekin, Ozgur, Kasparek, Tomas, Kohout, Tomas, Lin, Zhong-Yi, Lucchetti, Alice, Michel, Patrick, Murdoch, Naomi, Pajola, Maurizio, Parro, Laura M., Raducan, Sabina D., Sunshine, Jessica, Tancredi, Gonzalo, Trigo-Rodriguez, Josep M., and Zinzi, Angelo

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Morphological mapping is a fundamental step in studying the processes that shaped an asteroid surface. Yet, it is challenging and often requires multiple independent assessments by trained experts. Here, we present fast methods to detect and characterize meaningful terrains from the topographic roughness: entropy of information, and local mean surface orientation. We apply our techniques to Didymos and Dimorphos, the target asteroids of NASA's DART mission: first attempt to deflect an asteroid. Our methods reliably identify morphological units at multiple scales. The comparative study reveals various terrain types, signatures of processes that transformed Didymos and Dimorphos. Didymos shows the most heterogeneity and morphology that indicate recent resurfacing events. Dimorphos is comparatively rougher than Didymos, which may result from the formation process of the binary pair and past interaction between the two bodies. Our methods can be readily applied to other bodies and data sets., Comment: submitted to PSJ

Published

2024

3. The 18 May 2024 Iberian superbolide from a sunskirting orbit: USG space sensors and ground-based independent observations

Author

Peña-Asensio, Eloy, Grèbol-Tomàs, Pau, Trigo-Rodríguez, Josep M., Ramírez-Moreta, Pablo, and Kresken, Rainer

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Popular Physics

Abstract

On 18 May 2024, a superbolide traversed the western part of the Iberian Peninsula, culminating its flight over the Atlantic Ocean and generating significant media attention. This event was caused by a weak carbonaceous meteoroid of 1 m, entering the atmosphere at 40.4 km$\,$s$^{-1}$ with an average slope of 8.5$^\circ$. The luminous phase started at 133 km and ended at an altitude of 54 km. The meteoroid's heliocentric orbit had an inclination of 16.4$^\circ$, a high eccentricity of 0.952, a semi-major axis of 2.4 au, and a short perihelion distance of 0.12 au. The superbolide was recorded by multiple ground-based stations of the Spanish Meteor Network (SPMN) and the European Space Agency (ESA), as well as by the U.S. Government (USG) sensors from space. Due to the absence of observable deceleration, we successfully reconciled satellite radiometric data with a purely dynamic atmospheric flight model, constraining the meteoroid's mass and coherently fitting its velocity profile. Our analysis shows a good agreement with the radiant and velocity data reported by the Center for Near-Earth Object Studies (CNEOS), with a deviation of 0.56$^\circ$ and 0.1 km$\,$s$^{-1}$, respectively. The presence of detached fragments in the lower part of the luminous trajectory suggests that the meteoroid was a polymict carbonaceous chondrite, containing higher-strength macroscopic particles in its interior due to collisional gardening, or a thermally processed C-type asteroid. The orbital elements indicate that the most likely source is the Jupiter-Family Comet (JFC) region, aligning with the SOHO comet family, as its sunskirting orbit is decoupled from Jupiter. This event provides important information to characterize the disruption mechanism of near-Sun objects., Comment: Accepted in MNRAS Letters

Published

2024

4. Deep machine learning for meteor monitoring: advances with transfer learning and gradient-weighted class activation mapping

Author

Peña-Asensio, Eloy, Trigo-Rodríguez, Josep M., Grèbol-Tomàs, Pau, Regordosa-Avellana, David, and Rimola, Albert

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Image and Video Processing

Abstract

In recent decades, the use of optical detection systems for meteor studies has increased dramatically, resulting in huge amounts of data being analyzed. Automated meteor detection tools are essential for studying the continuous meteoroid incoming flux, recovering fresh meteorites, and achieving a better understanding of our Solar System. Concerning meteor detection, distinguishing false positives between meteor and non-meteor images has traditionally been performed by hand, which is significantly time-consuming. To address this issue, we developed a fully automated pipeline that uses Convolutional Neural Networks (CNNs) to classify candidate meteor detections. Our new method is able to detect meteors even in images that contain static elements such as clouds, the Moon, and buildings. To accurately locate the meteor within each frame, we employ the Gradient-weighted Class Activation Mapping (Grad-CAM) technique. This method facilitates the identification of the region of interest by multiplying the activations from the last convolutional layer with the average of the gradients across the feature map of that layer. By combining these findings with the activation map derived from the first convolutional layer, we effectively pinpoint the most probable pixel location of the meteor. We trained and evaluated our model on a large dataset collected by the Spanish Meteor Network (SPMN) and achieved a precision of 98\%. Our new methodology presented here has the potential to reduce the workload of meteor scientists and station operators and improve the accuracy of meteor tracking and classification., Comment: Accepted in Planetary and Space Science

Published

2023

5. Oort cloud perturbations as a source of hyperbolic Earth impactors

Author

Peña-Asensio, Eloy, Visuri, Jaakko, Trigo-Rodríguez, Josep M., Socas-Navarro, Hector, Gritsevich, Maria, Siljama, Markku, and Rimola, Albert

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The observation of interstellar objects 1I/'Oumuamua and 2I/Borisov suggests the existence of a larger population of smaller projectiles that impact our planet with unbound orbits. We analyze an asteroidal grazing meteor (FH1) recorded by the Finnish Fireball Network on October 23, 2022. FH1 displayed a likely hyperbolic orbit lying on the ecliptic plane with an estimated velocity excess of $\sim$0.7 km$\,$s$^{-1}$ at impact. FH1 may either be an interstellar object, indicating a high-strength bias in this population, or an Oort cloud object, which would reinforce migration-based solar system models. Furthermore, under the calculated uncertainties, FH1 could potentially be associated with the passage of Scholz's binary star system. Statistical evaluation of uncertainties in the CNEOS database and study of its hyperbolic fireballs reveals an anisotropic geocentric radiant distribution and low orbital inclinations, challenging the assumption of a randomly incoming interstellar population. Orbital integrations suggest that the event on March 9, 2017 (IM2) from CNEOS may have experienced gravitational perturbation during the Scholz fly-by, contingent upon velocity overestimation within the expected range. These findings suggest that apparent interstellar meteors may, in fact, be the result of accelerated meteoroid impacts caused by close encounters with massive objects within or passing through our solar system., Comment: Accepted for publication in Icarus

Published

2023

6. Ejecta Evolution Following a Planned Impact into an Asteroid: The First Five Weeks

Author

Kareta, Theodore, Thomas, Cristina, Li, Jian-Yang, Knight, Matthew M., Moskovitz, Nicholas, Rozek, Agata, Bannister, Michele T., Ieva, Simone, Snodgrass, Colin, Pravec, Petr, Ryan, Eileen V., Ryan, William H., Fahnestock, Eugene G., Rivkin, Andrew S., Chabot, Nancy, Fitzsimmons, Alan, Osip, David, Lister, Tim, Sarid, Gal, Hirabayashi, Masatoshi, Farnham, Tony, Tancredi, Gonzalo, Michel, Patrick, Wainscoat, Richard, Weryk, Rob, Burrati, Bonnie, Pittichova, Jana, Ridden-Harper, Ryan, Tan, Nicole J., Tristram, Paul, Brown, Tyler, Bonavita, Mariangela, Burgdorf, Martin, Khalouei, Elahe, Longa, Penelope, Rabus, Markus, Sajadian, Sedighe, Jorgensen, Uffe Graae, Dominik, Martin, Kikwaya, Jean-Baptiste, Epifani, Elena Mazzotta, Dotto, Elisabetta, Deshapriya, J. D. Prasanna, Hasselmann, Pedro H., Dall'Ora, Massimo, Abe, Lyu, Guillot, Tristan, Mekarnia, Djamel, Agabi, Abdelkrim, Bendjoya, Philippe, Suarez, Olga, Triaud, Amaury, Gasparetto, Thomas, Gunther, Maximillian N., Kueppers, Michael, Merin, Bruno, Chatelain, Joseph, Gomez, Edward, Usher, Helen, Stoddard-Jones, Cai, Bartnik, Matthew, Bellaver, Michael, Chetan, Brenna, Dugan, Emma, Fallon, Tori, Fedewa, Jeremy, Gerhard, Caitlyn, Jacobson, Seth A., Painter, Shane, Peterson, David-Michael, Rodriguez, Joseph E., Smith, Cody, Sokolovsky, Kirill V., Sullivan, Hannah, Townley, Kate, Watson, Sarah, Webb, Levi, Trigo-Rodrıguez, Josep M., Llenas, Josep M., Perez-Garcıa, Ignacio, Castro-Tirado, A. J., Vincent, Jean-Baptiste, Migliorini, Alessandra, Lazzarin, Monica, La Forgia, Fiorangela, Ferrari, Fabio, Polakis, Tom, and Skiff, Brian

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The impact of the DART spacecraft into Dimorphos, moon of the asteroid Didymos, changed Dimorphos' orbit substantially, largely from the ejection of material. We present results from twelve Earth-based facilities involved in a world-wide campaign to monitor the brightness and morphology of the ejecta in the first 35 days after impact. After an initial brightening of ~1.4 magnitudes, we find consistent dimming rates of 0.11-0.12 magnitudes/day in the first week, and 0.08-0.09 magnitudes/day over the entire study period. The system returned to its pre-impact brightness 24.3-25.3 days after impact through the primary ejecta tail remained. The dimming paused briefly eight days after impact, near in time to the appearance of the second tail. This was likely due to a secondary release of material after re-impact of a boulder released in the initial impact, through movement of the primary ejecta through the aperture likely played a role., Comment: 16 pages, 5 Figures, accepted in the Astrophysical Journal Letters (ApJL) on October 16, 2023

Published

2023

7. Near to Mid-Infrared Spectroscopy of (65803) Didymos as observed by JWST: Characterization Observations Supporting the Double Asteroid Redirection Test

Author

Rivkin, Andrew S., Thomas, Cristina A., Wong, Ian, Rozitis, Benjamin, de León, Julia, Holler, Bryan, Milam, Stefanie N., Howell, Ellen S., Hammel, Heidi B., Arredondo, Anicia, Brucato, John R., Epifani, Elena M., Ieva, Simone, La Forgia, Fiorangela, Lucas, Michael P., Lucchetti, Alice, Pajola, Maurizio, Poggiali, Giovanni, Sunshine, Jessica N., and Trigo-Rodríguez, Josep M.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The Didymos binary asteroid was the target of the Double Asteroid Redirection Test (DART) mission, which intentionally impacted Dimorphos, the smaller member of the binary system. We used the Near-Infrared Spectrograph (NIRSpec) and Mid-Infrared Instrument (MIRI) instruments on JWST to measure the 0.6-5 $\mu$m and 5-20 $\mu$m spectra of Didymos approximately two months after the DART impact. These observations confirm that Didymos belongs to the S asteroid class and is most consistent with LL chondrite composition as was previously determined from its 0.6-2.5-$\mu$m reflectance spectrum. Measurements at wavelengths $>$ 2.5 $\mu$m show Didymos to have thermal properties typical for an S-complex asteroid of its size and to be lacking absorptions deeper than $\sim$2\% due to OH or H2O. Didymos' mid-infrared emissivity spectrum is within the range of what has been observed on S-complex asteroids observed with Spitzer Space Telescope and is most consistent with emission from small ($<$ 25 $\mu$m) surface particles. We conclude that the observed reflectance and physical properties make the Didymos system a good proxy for the type of ordinary chondrite asteroids that cross near-Earth space, and a good representative of likely future impactors., Comment: Accepted by the Planetary Science Journal, 16 October 2023 Paper has 29 pages, 13 figures, 1 table

Published

2023

8. ALMA Observations of the DART Impact: Characterizing the Ejecta at Sub-Millimeter Wavelengths

Author

Roth, Nathan X., Milam, Stefanie N., Remijan, Anthony J., Cordiner, Martin A., Busch, Michael W., Thomas, Cristina A., Rivkin, Andrew S., Moullet, Arielle, Roush, Ted L., Siebert, Mark A., Li, Jian-Yang, Fahnestock, Eugene G., Trigo-Rodriguez, Josep M., Opitom, Cyrielle, and Hirabayashi, Masatoshi

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We report observations of the Didymos-Dimorphos binary asteroid system using the Atacama Large Millimeter/Submillimeter Array (ALMA) and the Atacama Compact Array (ACA) in support of the Double Asteroid Redirection Test (DART) mission. Our observations on UT 2022 September 15 provided a pre-impact baseline and the first measure of Didymos-Dimorphos' spectral emissivity at $\lambda=0.87$ mm, which was consistent with the handful of siliceous and carbonaceous asteroids measured at millimeter wavelengths. Our post-impact observations were conducted using four consecutive executions each of ALMA and the ACA spanning from T$+$3.52 to T$+$8.60 hours post-impact, sampling thermal emission from the asteroids and the impact ejecta. We scaled our pre-impact baseline measurement and subtracted it from the post-impact observations to isolate the flux density of mm-sized grains in the ejecta. Ejecta dust masses were calculated for a range of materials that may be representative of Dimorphos' S-type asteroid material. The average ejecta mass over our observations is consistent with 1.3--6.4$\times10^7$ kg, with the lower and higher values calculated for amorphous silicates and for crystalline silicates, respectively. Owing to the likely crystalline nature of S-type asteroid material, the higher value is favored. These ejecta masses represent 0.3--1.5\% of Dimorphos' total mass and are in agreement with lower limits on the ejecta mass based on measurements at optical wavelengths. Our results provide the most sensitive measure of mm-sized material in the ejecta and demonstrate the power of ALMA for providing supporting observations to spaceflight missions.

Published

2023

9. Momentum Transfer from the DART Mission Kinetic Impact on Asteroid Dimorphos

Author

Cheng, Andrew F., Agrusa, Harrison F., Barbee, Brent W., Meyer, Alex J., Farnham, Tony L., Raducan, Sabina D., Richardson, Derek C., Dotto, Elisabetta, Zinzi, Angelo, Della Corte, Vincenzo, Statler, Thomas S., Chesley, Steven, Naidu, Shantanu P., Hirabayashi, Masatoshi, Li, Jian-Yang, Eggl, Siegfried, Barnouin, Olivier S., Chabot, Nancy L., Chocron, Sidney, Collins, Gareth S., Daly, R. Terik, Davison, Thomas M., DeCoster, Mallory E., Ernst, Carolyn M., Ferrari, Fabio, Graninger, Dawn M., Jacobson, Seth A., Jutzi, Martin, Kumamoto, Kathryn M., Luther, Robert, Lyzhoft, Joshua R., Michel, Patrick, Murdoch, Naomi, Nakano, Ryota, Palmer, Eric, Rivkin, Andrew S., Scheeres, Daniel J., Stickle, Angela M., Sunshine, Jessica M., Trigo-Rodriguez, Josep M., Vincent, Jean-Baptiste, Walker, James D., Wünnemann, Kai, Zhang, Yun, Amoroso, Marilena, Bertini, Ivano, Brucato, John R., Capannolo, Andrea, Cremonese, Gabriele, Dall'Ora, Massimo, Deshapriya, Prasanna J. D., Gai, Igor, Hasselmann, Pedro H., Ieva, Simone, Impresario, Gabriele, Ivanovski, Stavro L., Lavagna, Michèle, Lucchetti, Alice, Epifani, Elena M., Modenini, Dario, Pajola, Maurizio, Palumbo, Pasquale, Perna, Davide, Pirrotta, Simone, Poggiali, Giovanni, Rossi, Alessandro, Tortora, Paolo, Zannoni, Marco, and Zanotti, Giovanni

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The NASA Double Asteroid Redirection Test (DART) mission performed a kinetic impact on asteroid Dimorphos, the satellite of the binary asteroid (65803) Didymos, at 23:14 UTC on September 26, 2022 as a planetary defense test. DART was the first hypervelocity impact experiment on an asteroid at size and velocity scales relevant to planetary defense, intended to validate kinetic impact as a means of asteroid deflection. Here we report the first determination of the momentum transferred to an asteroid by kinetic impact. Based on the change in the binary orbit period, we find an instantaneous reduction in Dimorphos's along-track orbital velocity component of 2.70 +/- 0.10 mm/s, indicating enhanced momentum transfer due to recoil from ejecta streams produced by the impact. For a Dimorphos bulk density range of 1,500 to 3,300 kg/m$^3$, we find that the expected value of the momentum enhancement factor, $\beta$, ranges between 2.2 and 4.9, depending on the mass of Dimorphos. If Dimorphos and Didymos are assumed to have equal densities of 2,400 kg/m$^3$, $\beta$= 3.61 +0.19/-0.25 (1 $\sigma$). These $\beta$ values indicate that significantly more momentum was transferred to Dimorphos from the escaping impact ejecta than was incident with DART. Therefore, the DART kinetic impact was highly effective in deflecting the asteroid Dimorphos., Comment: accepted by Nature

Published

2023

10. Successful Kinetic Impact into an Asteroid for Planetary Defense

Author

Daly, R. Terik, Ernst, Carolyn M., Barnouin, Olivier S., Chabot, Nancy L., Rivkin, Andrew S., Cheng, Andrew F., Adams, Elena Y., Agrusa, Harrison F., Abel, Elisabeth D., Alford, Amy L., Asphaug, Erik I., Atchison, Justin A., Badger, Andrew R., Baki, Paul, Ballouz, Ronald-L., Bekker, Dmitriy L., Bellerose, Julie, Bhaskaran, Shyam, Buratti, Bonnie J., Cambioni, Saverio, Chen, Michelle H., Chesley, Steven R., Chiu, George, Collins, Gareth S., Cox, Matthew W., DeCoster, Mallory E., Ericksen, Peter S., Espiritu, Raymond C., Faber, Alan S., Farnham, Tony L., Ferrari, Fabio, Fletcher, Zachary J., Gaskell, Robert W., Graninger, Dawn M., Haque, Musad A., Harrington-Duff, Patricia A., Hefter, Sarah, Herreros, Isabel, Hirabayashi, Masatoshi, Huang, Philip M., Hsieh, Syau-Yun W., Jacobson, Seth A., Jenkins, Stephen N., Jensenius, Mark A., John, Jeremy W., Jutzi, Martin, Kohout, Tomas, Krueger, Timothy O., Laipert, Frank E., Lopez, Norberto R., Luther, Robert, Lucchetti, Alice, Mages, Declan M., Marchi, Simone, Martin, Anna C., McQuaide, Maria E., Michel, Patrick, Moskovitz, Nicholas A., Murphy, Ian W., Murdoch, Naomi, Naidu, Shantanu P., Nair, Hari, Nolan, Michael C., Ormö, Jens, Pajola, Maurizio, Palmer, Eric E., Peachey, James M., Pravec, Petr, Raducan, Sabina D., Ramesh, K. T., Ramirez, Joshua R., Reynolds, Edward L., Richman, Joshua E., Robin, Colas Q., Rodriguez, Luis M., Roufberg, Lew M., Rush, Brian P., Sawyer, Carolyn A., Scheeres, Daniel J., Scheirich, Petr, Schwartz, Stephen R., Shannon, Matthew P., Shapiro, Brett N., Shearer, Caitlin E., Smith, Evan J., Steele, R. Joshua, Steckloff, Jordan K, Stickle, Angela M., Sunshine, Jessica M., Superfin, Emil A., Tarzi, Zahi B., Thomas, Cristina A., Thomas, Justin R., Trigo-Rodríguez, Josep M., Tropf, B. Teresa, Vaughan, Andrew T., Velez, Dianna, Waller, C. Dany, Wilson, Daniel S., Wortman, Kristin A., and Zhang, Yun

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

While no known asteroid poses a threat to Earth for at least the next century, the catalog of near-Earth asteroids is incomplete for objects whose impacts would produce regional devastation. Several approaches have been proposed to potentially prevent an asteroid impact with Earth by deflecting or disrupting an asteroid. A test of kinetic impact technology was identified as the highest priority space mission related to asteroid mitigation. NASA's Double Asteroid Redirection Test (DART) mission is the first full-scale test of kinetic impact technology. The mission's target asteroid was Dimorphos, the secondary member of the S-type binary near-Earth asteroid (65803) Didymos. This binary asteroid system was chosen to enable ground-based telescopes to quantify the asteroid deflection caused by DART's impact. While past missions have utilized impactors to investigate the properties of small bodies those earlier missions were not intended to deflect their targets and did not achieve measurable deflections. Here we report the DART spacecraft's autonomous kinetic impact into Dimorphos and reconstruct the impact event, including the timeline leading to impact, the location and nature of the DART impact site, and the size and shape of Dimorphos. The successful impact of the DART spacecraft with Dimorphos and the resulting change in Dimorphos's orbit demonstrates that kinetic impactor technology is a viable technique to potentially defend Earth if necessary., Comment: Accepted by Nature

Published

2023

11. Ejecta from the DART-produced active asteroid Dimorphos

Author

Li, Jian-Yang, Hirabayashi, Masatoshi, Farnham, Tony L., Sunshine, Jessica M., Knight, Matthew M., Tancredi, Gonzalo, Moreno, Fernando, Murphy, Brian, Opitom, Cyrielle, Chesley, Steve, Scheeres, Daniel J., Thomas, Cristina A., Fahnestock, Eugene G., Cheng, Andrew F., Dressel, Linda, Ernst, Carolyn M., Ferrari, Fabio, Fitzsimmons, Alan, Ieva, Simone, Ivanovski, Stavro L., Kareta, Teddy, Kolokolova, Ludmilla, Lister, Tim, Raducan, Sabina D., Rivkin, Andrew S., Rossi, Alessandro, Soldini, Stefania, Stickle, Angela M., Vick, Alison, Vincent, Jean-Baptiste, Weaver, Harold A., Bagnulo, Stefano, Bannister, Michele T., Cambioni, Saverio, Bagatin, Adriano Campo, Chabot, Nancy L., Cremonese, Gabriele, Daly, R. Terik, Dotto, Elisabetta, Glenar, David A., Granvik, Mikael, Hasselmann, Pedro H., Herreros, Isabel, Jacobson, Seth, Jutzi, Martin, Kohout, Tomas, La Forgia, Fiorangela, Lazzarin, Monica, Lin, Zhong-Yi, Lolachi, Ramin, Lucchetti, Alice, Makadia, Rahil, Epifani, Elena Mazzotta, Michel, Patrick, Migliorini, Alessandra, Moskovitz, Nicholas A., Orm., Jens, Pajola, Maurizio, nchez, Paul S., Schwartz, Stephen R., Snodgrass, Colin, Steckloff, Jordan, Stubbs, Timothy J., and Trigo-Rodriguez, Josep M.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Some active asteroids have been proposed to be the result of impact events. Because active asteroids are generally discovered serendipitously only after their tail formation, the process of the impact ejecta evolving into a tail has never been directly observed. NASA's Double Asteroid Redirection Test (DART) mission, apart from having successfully changed the orbital period of Dimorphos, demonstrated the activation process of an asteroid from an impact under precisely known impact conditions. Here we report the observations of the DART impact ejecta with the Hubble Space Telescope (HST) from impact time T+15 minutes to T+18.5 days at spatial resolutions of ~2.1 km per pixel. Our observations reveal a complex evolution of ejecta, which is first dominated by the gravitational interaction between the Didymos binary system and the ejected dust and later by solar radiation pressure. The lowest-speed ejecta dispersed via a sustained tail that displayed a consistent morphology with previously observed asteroid tails thought to be produced by impact. The ejecta evolution following DART's controlled impact experiment thus provides a framework for understanding the fundamental mechanisms acting on asteroids disrupted by natural impact., Comment: accepted by Nature

Published

2023

12. Identifying meteorite droppers among the population of bright 'sporadic' bolides imaged by the Spanish Meteor Network during the spring of 2022

Author

Peña-Asensio, Eloy, Trigo-Rodríguez, Josep M., Rimola, Albert, Corretgé-Gilart, Marc, and Koschny, Detlef

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The extraordinary weather conditions available between February and March 2022 over Spain have allowed us to analyze the brightest fireballs recorded by the monitoring stations of the Spanish Meteor Network (SPMN). We study the atmospheric flight of 15 large meteoroids to determine if they are meteorite dropper events to prepare campaigns to search for freshly fallen extraterrestrial material. We investigate their origins in the Solar System and their dynamic association with parent bodies and meteoroid streams. Employing our Python pipeline 3D-FireTOC, we reconstruct the atmospheric trajectory utilizing ground-based multi-station observations and compute the heliocentric orbit. In addition, we apply an ablation model to estimate the initial and terminal mass of each event. Using a dissimilarity criterion and propagating backward in time, we check the connection of these meteoroids with known complexes and near-Earth objects. We also calculate if the orbits are compatible with recent meteoroid ejections. We find that ~27% of these fireballs are dynamically associated with minor meteoroid streams and exhibit physical properties of cometary bodies, as well as one associated with a near-Earth asteroid. We identify two meteorite-producing events; however, the on-site search was unsuccessful. By considering that these fireballs are mostly produced by cm-sized rocks that might be the fragmentation product of much larger meteoroids, our findings emphasize the idea that the population of near-Earth objects is a source of near-term impact hazards, existing large Earth-colliding meteoroids in the known complexes., Comment: Accepted in MNRAS

Published

2023

13. After DART: Using the first full-scale test of a kinetic impactor to inform a future planetary defense mission

Author

Statler, Thomas S., Raducan, Sabina D., Barnouin, Olivier S., DeCoster, Mallory E., Chesley, Steven R., Barbee, Brent, Agrusa, Harrison F., Cambioni, Saverio, Cheng, Andrew F., Dotto, Elisabetta, Eggl, Siegfried, Fahnestock, Eugene G., Ferrari, Fabio, Graninger, Dawn, Herique, Alain, Herreros, Isabel, Hirabayashi, Masatoshi, Ivanovski, Stavro, Jutzi, Martin, Karatekin, Özgür, Lucchetti, Alice, Luther, Robert, Makadia, Rahil, Marzari, Francesco, Michel, Patrick, Murdoch, Naomi, Nakano, Ryota, Ormö, Jens, Pajola, Maurizio, Rivkin, Andrew S., Rossi, Alessandro, Sánchez, Paul, Schwartz, Stephen R., Soldini, Stefania, Souami, Damya, Stickle, Angela, Tortora, Paolo, Trigo-Rodríguez, Josep M., Venditti, Flaviane, Vincent, Jean-Baptiste, and Wünnemann, Kai

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

NASA's Double Asteroid Redirection Test (DART) is the first full-scale test of an asteroid deflection technology. Results from the hypervelocity kinetic impact and Earth-based observations, coupled with LICIACube and the later Hera mission, will result in measurement of the momentum transfer efficiency accurate to ~10% and characterization of the Didymos binary system. But DART is a single experiment; how could these results be used in a future planetary defense necessity involving a different asteroid? We examine what aspects of Dimorphos's response to kinetic impact will be constrained by DART results; how these constraints will help refine knowledge of the physical properties of asteroidal materials and predictive power of impact simulations; what information about a potential Earth impactor could be acquired before a deflection effort; and how design of a deflection mission should be informed by this understanding. We generalize the momentum enhancement factor $\beta$, showing that a particular direction-specific $\beta$ will be directly determined by the DART results, and that a related direction-specific $\beta$ is a figure of merit for a kinetic impact mission. The DART $\beta$ determination constrains the ejecta momentum vector, which, with hydrodynamic simulations, constrains the physical properties of Dimorphos's near-surface. In a hypothetical planetary defense exigency, extrapolating these constraints to a newly discovered asteroid will require Earth-based observations and benefit from in-situ reconnaissance. We show representative predictions for momentum transfer based on different levels of reconnaissance and discuss strategic targeting to optimize the deflection and reduce the risk of a counterproductive deflection in the wrong direction., Comment: 30 pages, 7 figures. Planetary Science Journal, in press, accepted 2022 September 22

Published

2022

14. Quick Determination of Bolide Explosion Locations Using Seismic and Optic Data

Author

Díaz, Jordi, Trigo-Rodríguez, Josep M., Tapia, Mar, Ruiz, Mario, Pisello, Anna Laura, Editorial Board Member, Hawkes, Dean, Editorial Board Member, Bougdah, Hocine, Editorial Board Member, Rosso, Federica, Editorial Board Member, Abdalla, Hassan, Editorial Board Member, Boemi, Sofia-Natalia, Editorial Board Member, Mohareb, Nabil, Editorial Board Member, Mesbah Elkaffas, Saleh, Editorial Board Member, Bozonnet, Emmanuel, Editorial Board Member, Pignatta, Gloria, Editorial Board Member, Mahgoub, Yasser, Editorial Board Member, De Bonis, Luciano, Editorial Board Member, Kostopoulou, Stella, Editorial Board Member, Pradhan, Biswajeet, Editorial Board Member, Abdul Mannan, Md., Editorial Board Member, Alalouch, Chaham, Editorial Board Member, Gawad, Iman O., Editorial Board Member, Nayyar, Anand, Editorial Board Member, Amer, Mourad, Series Editor, Bezzeghoud, Mourad, editor, Ergüler, Zeynal Abiddin, editor, Rodrigo-Comino, Jesús, editor, Jat, Mahesh Kumar, editor, Kalatehjari, Roohollah, editor, Bisht, Deepak Singh, editor, Biswas, Arkoprovo, editor, Chaminé, Helder I., editor, Shah, Afroz Ahmad, editor, Radwan, Ahmed E., editor, Knight, Jasper, editor, Panagoulia, Dionysia, editor, Kallel, Amjad, editor, Turan, Veysel, editor, Chenchouni, Haroun, editor, Ciner, Attila, editor, and Gentilucci, Matteo, editor

Published

2024

15. Quick Determination of Bolide Explosion Locations Using Seismic and Optic Data

Author

Díaz, Jordi, primary, Trigo-Rodríguez, Josep M., additional, Tapia, Mar, additional, and Ruiz, Mario, additional

Published

2024

16. Machine learning applications on lunar meteorite minerals: From classification to mechanical properties prediction

Author

Peña-Asensio, Eloy, Trigo-Rodríguez, Josep M., Sort, Jordi, Ibáñez-Insa, Jordi, and Rimola, Albert

Published

2024

17. Learning about comets from the study of mass distributions and fluxes of meteoroid streams

Author

Trigo-Rodríguez, Josep M. and Blum, Jürgen

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics, Physics - Space Physics

Abstract

Meteor physics can provide new clues about the size, structure, and density of cometary disintegration products, establishing a bridge between different research fields. From meteor magnitude data we have estimated the mass distribution of meteoroids from different cometary streams by using the relation between the luminosity and the mass obtained by Verniani (1973). These mass distributions are in the range observed for dust particles released from comets 1P/Halley and 81P/Wild 2 as measured from spacecraft. From the derived mass distributions, we have integrated the incoming mass for the most significant meteor showers. By comparing the mass of the collected Interplanetary Dust Particles (IDPs) with that derived for cometary meteoroids a gap of several orders of magnitude is encountered. The largest examples of fluffy particles are clusters of IDPs no larger than 100 micrometers in size (or 5x10^-7 g in mass) while the largest cometary meteoroids are centimeter-sized objects. Such gaps can be explained by the fragmentation in the interstellar medium or in the atmosphere of the original cometary particles. As an application of the mass distribution computations we describe the significance of the disruption of fragile comets in close approaches to Earth as a more efficient (and probably more frequent) way to deliver volatiles than direct impacts. We finally apply our model to quantify the flux of meteoroids from different meteoroid streams, and to describe the main physical processes contributing to the progressive decay of cometary meteoroids in the interplanetary medium., Comment: Accepted for publication in Monthly Notices of the Royal Astronomical Society on Sept. 28th, 2021; 27 pages, 3 tables and 3 figures

Published

2021

18. Using fireball networks to track more frequent reentries: Falcon 9 upper stage orbit determination from video recordings

Author

Peña-Asensio, Eloy, Trigo-Rodríguez, Josep M., Langbroek, Marco, Rimola, Albert, and Robles, Antonio J.

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

On February 16, 2021, an artificial object was recorded by the Spanish Meteor Network (SPMN) moving slowly over the Mediterranean. From the astrometric measurements, we identify this event as the reentry engine burn of a SpaceX Falcon 9 launch vehicle's upper stage. To study this event in detail, we adapted the plane intersection method for near-straight meteoroid trajectories to analyze slow and curved orbits associated with artificial objects. To corroborate our results, we approximated the orbital elements for the upper stage using four pieces of "debris" cataloged by the U.S. Government Combined Space Operations Center (CSpOC). Based on these calculations, we also estimated the possible deorbit hazard zone using the MSISE90 model atmosphere. We warn of the interference that these artificial bolides might have in fireball studies. In addition, given that artificial bolides will be probably more frequent in the future, we point out the new role that ground-based detection networks can play in the monitoring of potentially hazardous artificial objects in near-Earth space and determining the strewn field of artificial space debris., Comment: Astrodynamics Journal (in press)

Published

2021

19. The Reflectance Spectra of CV-CK Carbonaceous chondrites from the Near Infrared to the Visible

Author

Tanbakouei, Safoura, Trigo-Rodriguez, Josep M., Llorca, J., Moyano-Cambero, C. E., Williams, I. P., and Rivkin, Andrew S.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Carbonaceous chondrite meteorites are so far the only available samples representing carbon-rich asteroids and in order to allow future comparison with samples returned by missions such as Hayabusa 2 and OSIRIS-Rex, is important to understand their physical properties. Future characterization of asteroid primitive classes, some of them targeted by sample-return missions, requires a better understanding of their mineralogy, the consequences of the exposure to space weathering, and how both affect the reflectance behavior of these objects. In this paper, the reflectance spectra of two chemically-related carbonaceous chondrites groups, precisely the Vigrano (CVs) and Karoonda (CKs), are measured and compared. The available sample suite includes polished sections exhibiting different petrologic types: from 3 (very low degree of thermal metamorphism) to 5 (high degree of thermal metamorphism). We found that the reflective properties and the comparison with the Cg asteroid reflectance class point toward a common chondritic reservoir from which the CV-CK asteroids collisionally evolved. In that scenario the CV and CK chondrites could be originated from 221 Eos asteroid family, but because of its collisional disruption, both chondrite groups evolved separately, experiencing different stages of thermal metamorphism, annealing and space weathering.

Published

2021

20. Oort cloud perturbations as a source of hyperbolic Earth impactors

Author

Peña-Asensio, Eloy, Visuri, Jaakko, Trigo-Rodríguez, Josep M., Socas-Navarro, Hector, Gritsevich, Maria, Siljama, Markku, and Rimola, Albert

Published

2024

21. Comparing the reflectivity of ungrouped carbonaceous chondrites with that of short period comets like 2P/Encke

Author

Tanbakouei, Safoura, Trigo-Rodriguez, Josep M., blum, Jurgen, Williams, Iwan, and Llorca, Jordi

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Aims. The existence of asteroid complexes produced by the disruption of these comets suggests that evolved comets could also produce high-strength materials able to survive as meteorites. We chose as an example comet 2P/Encke, one of the largest object of the so-called Taurid complex. We compare the reflectance spectrum of this comet with the laboratory spectra of some Antarctic ungrouped carbonaceous chondrites to investigate whether some of these meteorites could be associated with evolved comets. Methods. We compared the spectral behaviour of 2P/Encke with laboratory spectra of carbonaceous chondrites. Different specimens of the common carbonaceous chondrite groups do not match the overall features and slope of comet 2P/Encke. Trying anomalous carbonaceous chondrites, we found two meteorites, Meteorite Hills 01017 and Grosvenor Mountains 95551, which could be good proxies for the dark materials forming this short-period comet. We hypothesise that these two meteorites could be rare surviving samples, either from the Taurid complex or another compositionally similar body. In any case, it is difficult to get rid of the effects of terrestrial weathering in these Antarctic finds, and further studies are needed. Future sample return from the so-called dormant comets could be also useful to establish a ground truth on the materials forming evolved short-period comets. Results. As a natural outcome, we think that identifying good proxies of 2P/Encke-forming materials might have interesting implications for future sample-return missions to evolved, potentially dormant or extinct comets. To understand the compositional nature of evolved comets is particularly relevant in the context of the future mitigation of impact hazard from these dark and dangerous projectiles., Comment: Accepted for publication in A&A on July 6, 2020

Published

2020

22. Physically based alternative to the PE criterion for meteoroids

Author

Moreno-Ibáñez, Manuel, Gritsevich, Maria, Trigo-Rodríguez, Josep M., and Silber, Elizabeth A.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Meteoroids impacting the Earth atmosphere are commonly classified using the PE criterion. This criterion was introduced to support the identification of the fireball type by empirically linking its orbital origin and composition characteristics. Additionally, it is used as an indicator of the meteoroid tensile strength and its ability to penetrate the atmosphere. However, the level of classification accuracy of the PE criterion depends on the ability to constrain the value of the input data, retrieved from the fireball observation, required to derive the PE value. To overcome these uncertainties and achieve a greater classification detail we propose a new formulation using scaling laws and dimensionless variables that groups all the input variables into two parameters that are directly obtained from the fireball observations. These two parameters, ${\alpha}$ and ${\beta}$, represent the drag and the mass loss rates along the luminous part of the trajectory, respectively, and are linked to the shape, strength, ablation efficiency, mineralogical nature of the projectile, and duration of the fireball. Thus, the new formulation relies on a physical basis. This work shows the mathematical equivalence between the PE criterion and the logarithm of $2{\alpha}{\beta}$ under the same PE-criterion assumptions. We demonstrate that $log(2{\alpha}{\beta})$ offers a more general formulation which does not require any preliminary constraint on the meteor flight scenario and discuss the suitability of the new formulation for expanding the classification beyond fully disintegrating fireballs to larger impactors including meteorite-dropping fireballs. The reliability of the new formulation is validated using the Prairie Network meteor observations., Comment: 15 pages, 2 figures, 1 table

Published

2020

23. AGUA EN EL PLANETA ROJO

Author

Trigo-Rodríguez, Josep M.

Subjects

Scheller, Eva

Abstract

Por JOSEP M. TRIGO-RODRÍGUEZ, Instituto de Ciencias del Espacio (CSIC/IEEC) (NASA) La exploración espacial revela a cada paso creciente evidencia de que el agua fue omnipresente en los primeros tiempos [...]

Published

2024

24. Craters and Extinctions in the Geological Record

Author

Trigo-Rodríguez, Josep M., Koeberl, Christian, Series Editor, Trigo-Rodriguez, Josep, Series Editor, Bezaeva, Natalia, Series Editor, and Trigo-Rodríguez, Josep M.

Published

2022

25. Meteorite Parent Bodies and Their Routes to Earth

Author

Trigo-Rodríguez, Josep M., Koeberl, Christian, Series Editor, Trigo-Rodriguez, Josep, Series Editor, Bezaeva, Natalia, Series Editor, and Trigo-Rodríguez, Josep M.

Published

2022

26. Quantifying the Nature and the Magnitude of the Hazard from Asteroid Impacts

Author

Trigo-Rodríguez, Josep M., Koeberl, Christian, Series Editor, Trigo-Rodriguez, Josep, Series Editor, Bezaeva, Natalia, Series Editor, and Trigo-Rodríguez, Josep M.

Published

2022

27. Fireballs Announcing Meteorite Falls

Author

Trigo-Rodríguez, Josep M., Koeberl, Christian, Series Editor, Trigo-Rodriguez, Josep, Series Editor, Bezaeva, Natalia, Series Editor, and Trigo-Rodríguez, Josep M.

Published

2022

28. The Origin and Nature of Comets

Author

Trigo-Rodríguez, Josep M., Koeberl, Christian, Series Editor, Trigo-Rodriguez, Josep, Series Editor, Bezaeva, Natalia, Series Editor, and Trigo-Rodríguez, Josep M.

Published

2022

29. The Risk Associated with Short-Period Comets and Its Origin

Author

Trigo-Rodríguez, Josep M., Koeberl, Christian, Series Editor, Trigo-Rodriguez, Josep, Series Editor, Bezaeva, Natalia, Series Editor, and Trigo-Rodríguez, Josep M.

Published

2022

30. Accretion of water in carbonaceous chondrites: current evidence and implications for the delivery of water to early Earth

Author

Trigo-Rodríguez, Josep M., Rimola, Albert, Tanbakouei, Safoura, Cabedo, Victoria, and Lee, Martin

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Protoplanetary disks are dust-rich structures around young stars. The crystalline and amorphous materials contained within these disks are variably thermally processed and accreted to make bodies of a wide range of sizes and compositions, depending on the heliocentric distance of formation. The chondritic meteorites are fragments of relatively small and undifferentiated bodies, and the minerals that they contain carry chemical signatures providing information about the early environment available for planetesimal formation. A current hot topic of debate is the delivery of volatiles to terrestrial planets, understanding that they were built from planetesimals formed under far more reducing conditions than the primordial carbonaceous chondritic bodies. In this review, we describe significant evidence for the accretion of ices and hydrated minerals in the outer protoplanetary disk. In that distant region highly porous and fragile carbon and water-rich transitional asteroids formed, being the parent bodies of the carbonaceous chondrites (CCs). CCs are undifferentiated meteorites that never melted but experienced other physical processes including thermal and aqueous alteration. Recent evidence indicates that few of them have escaped significant alteration, retaining unique features that can be interpreted as evidence of wet accretion. Some examples of carbonaceous chondrite parent body aqueous alteration will be presented. Finally, atomistic interpretations of the first steps leading to water-mediated alteration during the accretion of CCs are provided and discussed. From these new insights into the water retained in CCs we can decipher the pathways of delivery of volatiles to the terrestrial planets., Comment: 37 pages, 2 Tables, 10 Figures Presented in the International ESAC workshop "Ices in the Solar System" To be published in Space Science Reviews (SPAC-D-18-00036R3)

Published

2019

31. Verification of the flow regimes based on high fidelity observations of bright meteors

Author

Moreno-Ibáñez, Manuel, Silber, Elizabeth A., Gritsevich, Maria, and Trigo-Rodríguez, Josep M.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Infrasound monitoring has proved to be effective in detection of the meteor generated shock waves. When combined with optical observations of meteors, this technique is also reliable for detecting centimeter-sized meteoroids that usually ablate at high altitudes, thus offering relevant clues that open the exploration of the meteoroid flight regimes. Since a shock wave is formed as a result of a passage of the meteoroid through the atmosphere, the knowledge of the physical parameters of the surrounding gas around the meteoroid surface can be used to determine the meteor flow regime. This study analyses the flow regimes of a data set of twenty-four centimeter-sized meteoroids for which well constrained infrasound and photometric information is available. This is the first time that the flow regimes for meteoroids in this size range are validated from observations. From our approach, the Knudsen and Reynolds numbers are calculated, and two different flow regime evaluation approaches are compared in order to validate the theoretical formulation. The results demonstrate that a combination of fluid dynamic dimensionless parameters is needed to allow a better inclusion of the local physical processes of the phenomena., Comment: 41 pages, 3 Figures and 3 Tables (in press in ApJ)

Published

2018

32. Annama H chondrite - mineralogy, physical properties, cosmic ray exposure, and parent body history

Author

Kohout, Tomáš, Haloda, Jakub, Halodová, Patricie, Meier, Matthias M. M., Maden, Colin, Busemann, Henner, Laubenstein, Matthias, Caffee, Marc. W., Welten, Kees C., Hopp, Jens, Trieloff, Mario, Mahajan, Ramakant R., Naik, Sekhar, Trigo-Rodriguez, Josep M., Moyano-Cambero, Carles E., Oshtrakh, Michael I., Maksimova, Alevtina A., Chukin, Andrey V., Semionkin, Vladimir A., Karabanalov, Maksim S., Felner, Israel, Petrova, Evgeniya V., Brusnitsyna, Evgeniia V., Grokhovsky, Victor I., Yakovlev, Grigoriy A., Gritsevich, Maria, Lyytinen, Esko, Moilanen, Jarmo, Kruglikov, Nikolai A., and Ishchenko, Aleksey V.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The fall of the Annama meteorite occurred early morning (local time) on April 19, 2014 on the Kola Peninsula (Russia). Based on mineralogy and physical properties, Annama is a typical H chondrite. It has a high Ar-Ar age of 4.4 Ga. Its cosmic ray exposure history is atypical as it is not part of the large group of H chondrites with a prominent 7 - 8 Ma peak in the exposure age histograms. Instead, its exposure age is within uncertainty of a smaller peak at 30 \pm 4 Ma. The results from short-lived radionuclides are compatible with an atmosperic pre-entry radius of 30 - 40 cm. However, based on noble gas and cosmogenic radionuclide data, Annama must have been part of a larger body (radius >65 cm) for a large part of its cosmic ray exposure history. The 10Be concentration indicates a recent (3 - 5 Ma) breakup which may be responsible for the Annama parent body size reduction to 30 - 35 cm pre-entry radius.

Published

2017

33. Petrographic and geochemical evidence for multiphase formation of carbonates in the Martian orthopyroxenite Allan Hills 84001

Author

Moyano-Cambero, Carles E., Trigo-Rodríguez, Josep M., Benito, M. Isabel, Alonso-Azcárate, Jacinto, Lee, Martin R., Mestres, Narcís, Martínez-Jiménez, Marina, Martín-Torres, F. Javier, and Fraxedas, Jordi

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Martian meteorites can provide valuable information about past environmental conditions on Mars. Allan Hills 84001 formed more than 4 Gyr ago, and owing to its age and long exposure to the Martian environment, this meteorite has features that may record early processes. These features include a highly fractured texture, gases trapped during one or more impact events or during formation of the rock, and spherical Fe-Mg-Ca carbonates. Here we have concentrated on providing new insights into the context of these carbonates using a range of techniques to explore whether they record multiple precipitation and shock events. The petrographic features and compositional properties of these carbonates indicate that at least two pulses of Mg- and Fe-rich solutions saturated the rock. Those two generations of carbonates can be distinguished by a very sharp change in compositions, from being rich in Mg and poor in Fe and Mn, to being poor in Mg and rich in Fe and Mn. Between these two generations of carbonate is evidence for fracturing and local corrosion., Comment: 30 pages, 11 figures, and 3 tables, Meteoritics & Planetary Science (2017)

Published

2017

34. Nanoindenting the Chelyabinsk meteorite to learn about impact deflection effects in asteroids

Author

Moyano-Cambero, Carles E., Pellicer, Eva, Trigo-Rodríguez, Josep M., Williams, Iwan P., Blum, Jürgen, Michel, Patrick, Küppers, Michael, Martínez-Jiménez, Marina, Lloro, Ivan, and Sort, Jordi

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The Chelyabinsk meteorite is a highly shocked, low porosity, ordinary chondrite, probably similar to S- or Q-type asteroids. Therefore, nanoindentation experiments on this meteorite allow us to obtain key data to understand the physical properties of near-Earth asteroids. Tests at different length scales provide information about the local mechanical properties of the minerals forming this meteorite: reduced Young's modulus, hardness, elastic recovery, and fracture toughness. Those tests are also useful to understand the potential to deflect threatening asteroids using a kinetic projectile. We found that the differences in mechanical properties between regions of the meteorite, which increase or reduce the efficiency of impacts, are not a result of compositional differences. A low mean particle size, attributed to repetitive shock, can increase hardness, while low porosity promotes a higher momentum multiplication. Momentum multiplication is the ratio between the change in momentum of a target due to an impact, and the momentum of the projectile, and, therefore higher values imply more efficient impacts. In the Chelyabinsk meteorite, the properties of the light-colored lithology materials facilitate obtaining higher momentum multiplication values, compared to the other regions described for this meteorite. Also, we found a low value of fracture toughness in the shock-melt veins of Chelyabinsk, which would promote the ejection of material after an impact and, therefore, increase the momentum multiplication. These results are relevant considering the growing interest in missions to test asteroid deflection, such as the recent collaboration between the European Space Agency and NASA, known as the Asteroid Impact and Deflection Assessment mission., Comment: 2 Tables, 4 Figures, and 19 pages in Astrophysical Journal (2017)

Published

2016

35. A plausible link between the asteroid 21 Lutetia and CH carbonaceous chondrites

Author

Moyano-Cambero, Carles E., Trigo-Rodríguez, Josep M., Llorca, Jordi, Fornasier, Sonia, Barucci, Maria A., and Rimola, Albert

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

A crucial topic in planetology research is establishing links between primitive meteorites and their parent asteroids. In this study we investigate the feasibility of a connection between asteroids similar to 21 Lutetia, encountered by the Rosetta mission in July 2010, and the CH3 carbonaceous chondrite Pecora Escarpment 91467 (PCA 91467). Several spectra of this meteorite were acquired in the ultraviolet to near-infrared (0.3 to 2.2 {\mu}m) and in the mid-infrared to thermal infrared (2.5 to 30.0 {\mu}m or 4000 to ~333 cm^-1), and they are compared here to spectra from the asteroid 21 Lutetia. There are several similarities in absorption bands and overall spectral behavior between this CH3 meteorite and 21 Lutetia. Considering also that the bulk density of Lutetia is similar to that of CH chondrites, we suggest that this asteroid could be similar, or related to, the parent body of these meteorites, if not the parent body itself. However, the apparent surface diversity of Lutetia pointed out in previous studies indicates that it could simultaneously be related to other types of chondrites. Future discovery of additional unweathered CH chondrites could provide deeper insight in the possible connection between this family of metal-rich carbonaceous chondrites and 21 Lutetia or other featureless, possibly hydrated high-albedo asteroids., Comment: 26 pages, 7 figures and 2 tables, Meteoritics and Planetary Science, manuscript #2225 (2016)

Published

2016

36. Observations of the Quadrantid meteor shower from 2008 to 2012: orbits and emission spectra

Author

Madiedo, José M., Espartero, Francisco, Trigo-Rodríguez, Josep M., Castro-Tirado, Alberto J., Pujols, Pep, Pastor, Sensi, Reyes, José A. de los, and Rodríguez, Diego

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The activity of the Quadrantids in January during several years (2008, 2010, 2011 and 2012) has been investigated in the framework of the SPanish Meteor Network (SPMN). For this purpose, an array of high-sensitivity CCD video devices and CCD all-sky cameras have been used to obtain multi-station observations of these meteors. These allowed us to obtain precise radiant and orbital information about this meteoroid stream. This paper presents a large set of orbital data (namely, 85 orbits) of Quadrantid meteoroids. Most meteors produced by these particles were recorded during the activity peak of this shower. Besides, we discuss four Quadrantid emission spectra. The tensile strength of Quadrantid meteoroids has been also obtained., Comment: Accepted for publication in Icarus on 18 April 2016

Published

2016

37. The collisional evolution of undifferentiated asteroids and the formation of chondritic meteoroids

Author

Beitz, Eike, Blum, Jürgen, Parisi, M. Gabriela, and Trigo-Rodríguez, Josep M.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Most meteorites are fragments from recent collisions experienced in the asteroid belt. In such a hyper-velocity collision, the smaller collision partner is destroyed, whereas a crater on the asteroid is formed or it is entirely disrupted, too. The present size distribution of the asteroid belt suggests that an asteroid with 100 km radius is encountered $10^{14}$ times during the lifetime of the Solar System by objects larger than 10 cm in radius; the formed craters cover the surface of the asteroid about 100 times. We present a Monte Carlo code that takes into account the statistical bombardment of individual infinitesimally small surface elements, the subsequent compaction of the underlying material, the formation of a crater and a regolith layer. For the entire asteroid, 10,000 individual surface elements are calculated. We compare the ejected material from the calculated craters with the shock stage of meteorites with low petrologic type and find that these most likely stem from smaller parent bodies that do not possess a significant regolith layer. For larger objects, which accrete a regolith layer, a prediction of the thickness depending on the largest visible crater can be made. Additionally, we compare the crater distribution of an object initially 100 km in radius with the shape model of the asteroid (21) Lutetia, assuming it to be initially formed spherical with a radius that is equal to its longest present ellipsoid length. Here, we find the shapes of both objects to show resemblance to each other., Comment: Accepted by ApJ

Published

2016

38. Asteroid Impact Risk

Author

Trigo-Rodríguez, Josep M., primary

Published

2022

39. Meteoritos. Origen, naturaleza y régimen jurídico

Author

Universidad de Alicante. Departamento de Derecho Civil, Trigo-Rodríguez, Josep M. (dir.), Bustos Moreno, Yolanda B. (dir.), González Ferreiro, Elisa Celia (coord.), Universidad de Alicante. Departamento de Derecho Civil, Trigo-Rodríguez, Josep M. (dir.), Bustos Moreno, Yolanda B. (dir.), and González Ferreiro, Elisa Celia (coord.)

Abstract

Los meteoritos, fragmentos de cuerpos celestes que han caído en la Tierra, son ventanas al pasado del sistema solar. Su estudio permite desentrañar tanto la formación de asteroides como de planetas, e incluso identificar moléculas orgánicas originadas en el espacio. Sin embargo, la recuperación y la custodia de meteoritos enfrentan desafíos legales. Históricamente, la disputa sobre su propiedad ha sido constante, desde el meteorito Ensisheim (Francia) en 1492 hasta casos recientes como el de Colomera en Granada. La ausencia de una regulación clara no solo genera conflictos jurídicos, sino que también pone en riesgo el avance científico. Este libro aborda tanto los aspectos científicos como las cuestiones jurídicas relativas a los meteoritos. Desde la importancia de su estudio para comprender nuestro entorno planetario, hasta la urgente necesidad de una legislación que determine la titularidad de los mismos, facilitando su recuperación y conservación. En España, al igual que en otros países, donde la recuperación de meteoritos cuenta con un vacío legal importante, se busca establecer un marco jurídico que garantice la protección de nuestro patrimonio geológico mueble de origen cósmico y promueva nuevos descubrimientos. Esta obra ofrece propuestas de lege ferenda con esta finalidad.

Published

2024

40. Evidence for multi-fragmentation and mass shedding of boulders on rubble-pile binary asteroid system (65803) Didymos

Author

Universidad de Alicante. Departamento de Física, Ingeniería de Sistemas y Teoría de la Señal, Universidad de Alicante. Instituto Universitario de Física Aplicada a las Ciencias y las Tecnologías, Pajola, Maurizio, Tusberti, Filippo, Lucchetti, Alice, Barnouin, Olivier, Cambioni, Saverio, Ernst, Carolyn, Dotto, Elisabetta, Daly, R. Terik, Poggiali, Giovanni, Hirabayashi, Masatoshi, Nakano, Ryota, Mazzotta Epifani, Elena, Chabot, Nancy, Della Corte, Vincenzo, Rivkin, Andy, Agrusa, Harrison F., Zhang, Yun, Penasa, L., Ballouz, Ronald-Louis, Ivanovski, Stavro, Murdoch, Naomi, Rossi, Alessandro, Robin, Colas Q., Ieva, Simone, Vincent, Jean-Baptiste, Ferrari, Fabio, Raducan, Sabina D., Campo Bagatin, Adriano, Parro, Laura M., Benavídez, Paula Gabriela, Tancredi, Gonzalo, Karatekin, Ozgür, Trigo-Rodríguez, Josep M., Sunshine, Jessica M., Farnham, Tony, Asphaug, Erik, Deshapriya, J. D. Prasanna, Hasselmann, Pedro H., Beccarelli, Joel, Schwartz, Stephen R., Abell, Paul, Michel, Patrick, Cheng, Andy F., Brucato, John Robert, Zinzi, Angelo, Amoroso, Marilena, Pirrotta, Simone, Impresario, Gabriele, Bertini, Ivano, Capannolo, Andrea, Caporali, S., Ceresoli, M., Cremonese, Gabriele, Dall’Ora, Massimo, Gai, Igor, Gomez Casajus, L., Gramigna, E., Lasagni Manghi, R., Lavagna, Michèle, Lombardo, M., Modenini, Dario, Palumbo, Pasquale, Perna, Davide, Tortora, Paolo, Zannoni, Marco, Zanotti, Giovanni, Universidad de Alicante. Departamento de Física, Ingeniería de Sistemas y Teoría de la Señal, Universidad de Alicante. Instituto Universitario de Física Aplicada a las Ciencias y las Tecnologías, Pajola, Maurizio, Tusberti, Filippo, Lucchetti, Alice, Barnouin, Olivier, Cambioni, Saverio, Ernst, Carolyn, Dotto, Elisabetta, Daly, R. Terik, Poggiali, Giovanni, Hirabayashi, Masatoshi, Nakano, Ryota, Mazzotta Epifani, Elena, Chabot, Nancy, Della Corte, Vincenzo, Rivkin, Andy, Agrusa, Harrison F., Zhang, Yun, Penasa, L., Ballouz, Ronald-Louis, Ivanovski, Stavro, Murdoch, Naomi, Rossi, Alessandro, Robin, Colas Q., Ieva, Simone, Vincent, Jean-Baptiste, Ferrari, Fabio, Raducan, Sabina D., Campo Bagatin, Adriano, Parro, Laura M., Benavídez, Paula Gabriela, Tancredi, Gonzalo, Karatekin, Ozgür, Trigo-Rodríguez, Josep M., Sunshine, Jessica M., Farnham, Tony, Asphaug, Erik, Deshapriya, J. D. Prasanna, Hasselmann, Pedro H., Beccarelli, Joel, Schwartz, Stephen R., Abell, Paul, Michel, Patrick, Cheng, Andy F., Brucato, John Robert, Zinzi, Angelo, Amoroso, Marilena, Pirrotta, Simone, Impresario, Gabriele, Bertini, Ivano, Capannolo, Andrea, Caporali, S., Ceresoli, M., Cremonese, Gabriele, Dall’Ora, Massimo, Gai, Igor, Gomez Casajus, L., Gramigna, E., Lasagni Manghi, R., Lavagna, Michèle, Lombardo, M., Modenini, Dario, Palumbo, Pasquale, Perna, Davide, Tortora, Paolo, Zannoni, Marco, and Zanotti, Giovanni

Abstract

Asteroids smaller than 10 km are thought to be rubble piles formed from the reaccumulation of fragments produced in the catastrophic disruption of parent bodies. Ground-based observations reveal that some of these asteroids are today binary systems, in which a smaller secondary orbits a larger primary asteroid. However, how these asteroids became binary systems remains unclear. Here, we report the analysis of boulders on the surface of the stony asteroid (65803) Didymos and its moonlet, Dimorphos, from data collected by the NASA DART mission. The size-frequency distribution of boulders larger than 5 m on Dimorphos and larger than 22.8 m on Didymos confirms that both asteroids are piles of fragments produced in the catastrophic disruption of their progenitors. Dimorphos boulders smaller than 5 m have size best-fit by a Weibull distribution, which we attribute to a multi-phase fragmentation process either occurring during coalescence or during surface evolution. The density per km2 of Dimorphos boulders ≥1 m is 2.3x with respect to the one obtained for (101955) Bennu, while it is 3.0x with respect to (162173) Ryugu. Such values increase once Dimorphos boulders ≥5 m are compared with Bennu (3.5x), Ryugu (3.9x) and (25143) Itokawa (5.1x). This is of interest in the context of asteroid studies because it means that contrarily to the single bodies visited so far, binary systems might be affected by subsequential fragmentation processes that largely increase their block density per km2. Direct comparison between the surface distribution and shapes of the boulders on Didymos and Dimorphos suggest that the latter inherited its material from the former. This finding supports the hypothesis that some asteroid binary systems form through the spin up and mass shedding of a fraction of the primary asteroid.

Published

2024

41. The geology and evolution of the Near-Earth binary asteroid system (65803) Didymos

Author

Universidad de Alicante. Departamento de Física, Ingeniería de Sistemas y Teoría de la Señal, Universidad de Alicante. Instituto Universitario de Física Aplicada a las Ciencias y las Tecnologías, Barnouin, Olivier, Ballouz, Ronald-Louis, Marchi, Simone, Vincent, Jean-Baptiste, Agrusa, Harrison F., Zhang, Yun, Ernst, Carolyn, Pajola, Maurizio, Tusberti, Filippo, Lucchetti, Alice, Daly, R. Terik, Palmer, Eric E., Walsh, Kevin J., Michel, Patrick, Sunshine, Jessica M., Rizos, Juan L., Farnham, Tony, Richardson, Derek C., Parro, Laura M., Murdoch, Naomi, Robin, Colas Q., Hirabayashi, Masatoshi, Kahout, Tomas, Asphaug, Erik, Raducan, Sabina D., Jutzi, Martin, Ferrari, Fabio, Hasselmann, Pedro H., Campo Bagatin, Adriano, Chabot, Nancy, Li, Jian-Yang, Cheng, Andy F., Nolan, Michael C., Stickle, Angela M., Karatekin, Ozgür, Dotto, Elisabetta, Della Corte, Vincenzo, Mazzotta Epifani, Elena, Rossi, Alessandro, Gai, Igor, Deshapriya, J. D. Prasanna, Bertini, Ivano, Zinzi, Angelo, Trigo-Rodríguez, Josep M., Beccarelli, Joel, Ivanovski, Stavro, Brucato, John Robert, Poggiali, Giovanni, Zanotti, Giovanni, Amoroso, Marilena, Capannolo, Andrea, Cremonese, Gabriele, Dall’Ora, Massimo, Ieva, Simone, Impresario, Gabriele, Lavagna, Michèle, Modenini, Dario, Palumbo, Pasquale, Perna, Davide, Pirrotta, Simone, Tortora, Paolo, Zannoni, Marco, Rivkin, Andy, Universidad de Alicante. Departamento de Física, Ingeniería de Sistemas y Teoría de la Señal, Universidad de Alicante. Instituto Universitario de Física Aplicada a las Ciencias y las Tecnologías, Barnouin, Olivier, Ballouz, Ronald-Louis, Marchi, Simone, Vincent, Jean-Baptiste, Agrusa, Harrison F., Zhang, Yun, Ernst, Carolyn, Pajola, Maurizio, Tusberti, Filippo, Lucchetti, Alice, Daly, R. Terik, Palmer, Eric E., Walsh, Kevin J., Michel, Patrick, Sunshine, Jessica M., Rizos, Juan L., Farnham, Tony, Richardson, Derek C., Parro, Laura M., Murdoch, Naomi, Robin, Colas Q., Hirabayashi, Masatoshi, Kahout, Tomas, Asphaug, Erik, Raducan, Sabina D., Jutzi, Martin, Ferrari, Fabio, Hasselmann, Pedro H., Campo Bagatin, Adriano, Chabot, Nancy, Li, Jian-Yang, Cheng, Andy F., Nolan, Michael C., Stickle, Angela M., Karatekin, Ozgür, Dotto, Elisabetta, Della Corte, Vincenzo, Mazzotta Epifani, Elena, Rossi, Alessandro, Gai, Igor, Deshapriya, J. D. Prasanna, Bertini, Ivano, Zinzi, Angelo, Trigo-Rodríguez, Josep M., Beccarelli, Joel, Ivanovski, Stavro, Brucato, John Robert, Poggiali, Giovanni, Zanotti, Giovanni, Amoroso, Marilena, Capannolo, Andrea, Cremonese, Gabriele, Dall’Ora, Massimo, Ieva, Simone, Impresario, Gabriele, Lavagna, Michèle, Modenini, Dario, Palumbo, Pasquale, Perna, Davide, Pirrotta, Simone, Tortora, Paolo, Zannoni, Marco, and Rivkin, Andy

Abstract

Images collected during NASA’s Double Asteroid Redirection Test (DART) mission provide the first resolved views of the Didymos binary asteroid system. These images reveal that the primary asteroid, Didymos, is flattened and has plausible undulations along its equatorial perimeter. At high elevations, its surface is rough and contains large boulders and craters; at low elevations its surface is smooth and possesses fewer large boulders and craters. Didymos’ moon, Dimorphos, possesses an intimate mixture of boulders, several asteroid-wide lineaments, and a handful of craters. The surfaces of both asteroids include boulders that are large relative to their host body, suggesting that both asteroids are rubble piles. Based on these observations, our models indicate that Didymos has a surface cohesion ≤ 1 Pa and an interior cohesion of ∼10 Pa, while Dimorphos has a surface cohesion of <0.9 Pa. Crater size-frequency analyzes indicate the surface age of Didymos is 40–130 times older than Dimorphos, with likely absolute ages of ∼ 12.5 Myr and <0.3 Myr, respectively. Solar radiation could have increased Didymos’ spin rate leading to internal deformation and surface mass shedding, which likely created Dimorphos.

Published

2024

42. Mechanical properties of rubble pile asteroids (Dimorphos, Itokawa, Ryugu, and Bennu) through surface boulder morphological analysis

Author

Universidad de Alicante. Instituto Universitario de Física Aplicada a las Ciencias y las Tecnologías, Robin, Colas Q., Duchene, Alexia, Murdoch, Naomi, Vincent, Jean-Baptiste, Lucchetti, Alice, Pajola, Maurizio, Ernst, Carolyn, Daly, R. Terik, Barnouin, Olivier, Raducan, Sabina D., Michel, Patrick, Hirabayashi, Masatoshi, Stott, Alexander, Cuervo, Gabriela, Jawin, Erica R., Trigo-Rodríguez, Josep M., Parro, Laura M., Sunday, Cecily, Vivet, Damien, Mimoun, David, Rivkin, Andy, Chabot, Nancy, Universidad de Alicante. Instituto Universitario de Física Aplicada a las Ciencias y las Tecnologías, Robin, Colas Q., Duchene, Alexia, Murdoch, Naomi, Vincent, Jean-Baptiste, Lucchetti, Alice, Pajola, Maurizio, Ernst, Carolyn, Daly, R. Terik, Barnouin, Olivier, Raducan, Sabina D., Michel, Patrick, Hirabayashi, Masatoshi, Stott, Alexander, Cuervo, Gabriela, Jawin, Erica R., Trigo-Rodríguez, Josep M., Parro, Laura M., Sunday, Cecily, Vivet, Damien, Mimoun, David, Rivkin, Andy, and Chabot, Nancy

Abstract

Planetary defense efforts rely on estimates of the mechanical properties of asteroids, which are difficult to constrain accurately from Earth. The mechanical properties of asteroid material are also important in the interpretation of the Double Asteroid Redirection Test (DART) impact. Here we perform a detailed morphological analysis of the surface boulders on Dimorphos using images, the primary data set available from the DART mission. We estimate the bulk angle of internal friction of the boulders to be 32.7 ± 2. 5° from our measurements of the roundness of the 34 best-resolved boulders ranging in size from 1.67–6.64 m. The elongated nature of the boulders around the DART impact site implies that they were likely formed through impact processing. Finally, we find striking similarities in the morphology of the boulders on Dimorphos with those on other rubble pile asteroids (Itokawa, Ryugu and Bennu). This leads to very similar internal friction angles across the four bodies and suggests that a common formation mechanism has shaped the boulders. Our results provide key inputs for understanding the DART impact and for improving our knowledge about the physical properties, the formation and the evolution of both near-Earth rubble-pile and binary asteroids.

Published

2024

43. Orbit and dynamic origin of the recently recovered Annama's H5 chondrite

Author

Trigo-Rodriguez, Josep M., Lyytinen, Esko, Gritsevich, Maria, Moreno-Ibáñez, Manuel, Bottke, William F., Williams, Iwan, Lupovka, Valery, Dmitriev, Vasily, Kohout, Tomas, and Grokhovsky, Victor

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We describe the fall of Annama meteorite occurred in the remote Kola Peninsula (Russia) close to Finnish border on April 19, 2014 (local time). The fireball was instrumentally observed by the Finnish Fireball Network. From these observations the strewnfield was computed and two first meteorites were found only a few hundred meters from the predicted landing site on May 29th and May 30th 2014, so that the meteorite (an H4-5 chondrite) experienced only minimal terrestrial alteration. The accuracy of the observations allowed a precise geocentric radiant to be obtained, and the heliocentric orbit for the progenitor meteoroid to be calculated. Backward integrations of the orbits of selected near-Earth asteroids and the Annama meteoroid showed that they rapidly diverged so that the Annama meteorites are unlikely related to them. The only exception seems to be the recently discovered 2014UR116 that shows a plausible dynamic relationship. Instead, analysis of the heliocentric orbit of the meteoroid suggests that the delivery of Annama onto an Earth-crossing Apollo type orbit occurred via the 4:1 mean motion resonance with Jupiter or the nu6 secular resonance, dynamic mechanisms that are responsible for delivering to Earth most meteorites studied so far., Comment: 14 pages, 4 figures and 4 tables

Published

2015

44. New methodology to determine the terminal height of a fireball

Author

Moreno-Ibáñez, Manuel, Gritsevich, Maria, and Trigo-Rodríguez, Josep M.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Despite ablation and drag processes associated with atmospheric entry of meteoroids were a subject of intensive study over the last century, little attention was devoted to interpret the observed fireball terminal height. This is a key parameter because it not only depends on the initial mass, but also on the bulk physical properties of the meteoroids and hence of their ability to ablate in the atmosphere. In this work we have developed a new approach that is tested using the fireball terminal heights observed by the Meteorite Observation and Recovery Project operated in Canada between 1970-1985 (hereafter referred as MORP). We then compare them to the calculation made. Our results clearly show that the new methodology is able to forecast the degree of deepening of meteoroids in the Earth's atmosphere. Then, this approach has important applications in predicting the impact hazard from cm- to meter-sized bodies that are represented, in part, in the MORP bolide list., Comment: 26 pages, 5 figures, 1 table

Published

2015

45. Mechanical properties of minerals in lunar and HED meteorites from nanoindentation testing: Implications for space mining.

Author

Peña‐Asensio, Eloy, Trigo‐Rodríguez, Josep M., Sort, Jordi, Ibáñez-Insa, Jordi, and Rimola, Albert

Subjects

*NANOINDENTATION tests, *METEORITES, *MINERAL properties, *OXIDE minerals, *SILICATE minerals, *OLIVINE

Abstract

This study analyzes the mechanical and elemental properties of lunar meteorites DHOFAR 1084, JAH 838, NWA 11444, and HED meteorite NWA 6013. Utilizing microscale rock mechanics experiments, that is, nanoindentation testing, this research reveals significant heterogeneity in both mechanical and elemental attributes across the mineral samples. Olivines, pyroxene, feldspar, and spinel demonstrate similar compositional and mechanical characteristics. Conversely, other silicate and oxide minerals display variations in their mechanical properties. Terrestrial olivines subjected to nanoindentation tests exhibit increased hardness and a higher Young's modulus than their lunar counterparts. A linear correlation is observed between the H/Er ratio and both plastic and elastic energies. Additionally, the alignment of mineral phases along a constant H/Er ratio suggests variations in local porosity. This study also highlights the need for further research focusing on porosity, phase insertions within the matrix, and structural orientations to refine our understanding of these mechanical characteristics. The findings have direct implications for in situ resource utilization strategies and future state‐of‐the‐art impact models. This comprehensive characterization serves as a foundational resource for future research efforts in space science and mining. [ABSTRACT FROM AUTHOR]

Published

2024

46. Evaluation of NEA deflection techniques. A fuzzy Multi-Criteria Decision Making analysis for planetary defense

Author

Sánchez-Lozano, J.M., Fernández-Martínez, M., Saucedo-Fernández, A.A., and Trigo-Rodriguez, Josep M.

Published

2020

47. Ejecta Evolution Following a Planned Impact into an Asteroid: The First Five Weeks

Author

Kareta, Theodore, primary, Thomas, Cristina, additional, Li, Jian-Yang, additional, Knight, Matthew M., additional, Moskovitz, Nicholas, additional, Rożek, Agata, additional, Bannister, Michele T., additional, Ieva, Simone, additional, Snodgrass, Colin, additional, Pravec, Petr, additional, Ryan, Eileen V., additional, Ryan, William H., additional, Fahnestock, Eugene G., additional, Rivkin, Andrew S., additional, Chabot, Nancy, additional, Fitzsimmons, Alan, additional, Osip, David, additional, Lister, Tim, additional, Sarid, Gal, additional, Hirabayashi, Masatoshi, additional, Farnham, Tony, additional, Tancredi, Gonzalo, additional, Michel, Patrick, additional, Wainscoat, Richard, additional, Weryk, Rob, additional, Burrati, Bonnie, additional, Pittichová, Jana, additional, Ridden-Harper, Ryan, additional, Tan, Nicole J., additional, Tristram, Paul, additional, Brown, Tyler, additional, Bonavita, Mariangela, additional, Burgdorf, Martin, additional, Khalouei, Elahe, additional, Longa, Penelope, additional, Rabus, Markus, additional, Sajadian, Sedighe, additional, Jorgensen, Uffe Graae, additional, Dominik, Martin, additional, Kikwaya, Jean-Baptiste, additional, Mazzotta Epifani, Elena, additional, Dotto, Elisabetta, additional, Deshapriya, Prasanna, additional, Hasselmann, Pedro, additional, Dall’Ora, Massimo, additional, Abe, Lyu, additional, Guillot, Tristan, additional, Mékarnia, Djamel, additional, Agabi, Abdelkrim, additional, Bendjoya, Philippe, additional, Suarez, Olga, additional, Triaud, Amaury, additional, Gasparetto, Thomas, additional, Günther, Maximillian N., additional, Kueppers, Michael, additional, Merin, Bruno, additional, Chatelain, Joseph, additional, Gomez, Edward, additional, Usher, Helen, additional, Stoddard-Jones, Cai, additional, Bartnik, Matthew, additional, Bellaver, Michael, additional, Chetan, Brenna, additional, Dugan, Emma, additional, Fallon, Tori, additional, Fedewa, Jeremy, additional, Gerhard, Caitlyn, additional, Jacobson, Seth A., additional, Painter, Shane, additional, Peterson, David-Michael, additional, Rodriguez, Joseph E., additional, Smith, Cody, additional, Sokolovsky, Kirill V., additional, Sullivan, Hannah, additional, Townley, Kate, additional, Watson, Sarah, additional, Webb, Levi, additional, Trigo-Rodríguez, Josep M., additional, Llenas, Josep M., additional, Pérez-García, Ignacio, additional, Castro-Tirado, A. J., additional, Vincent, Jean-Baptiste, additional, Migliorini, Alessandra, additional, Lazzarin, Monica, additional, La Forgia, Fiorangela, additional, Ferrari, Fabio, additional, Polakis, Tom, additional, and Skiff, Brian, additional

Published

2023

48. Orbits and emission spectra from the 2014 Camelopardalids

Author

Madiedo, José M., Trigo-Rodríguez, Josep M., Zamorano, Jaime, Izquierdo, Jaime, de Miguel, Alejandro Sánchez, Ocaña, Francisco, Ortiz, José L., Espartero, Francisco, Morillas, Lorenzo G., Cardeñosa, David, Moreno-Ibáñez, Manuel, and Urzáiz, Marta

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We have analyzed the meteor activity associated with meteoroids of fresh dust trails of Comet 209P/LINEAR, which produced an outburst of the Camelopardalid meteor shower (IAU code #451, CAM) in May 2014. With this aim, we have employed an array of high-sensitivity CCD video devices and spectrographs deployed at 10 meteor observing stations in Spain in the framework of the Spanish Meteor Network (SPMN). Additional meteoroid flux data were obtained by means of two forward-scatter radio systems. The observed peak zenithal hourly rate (ZHR) was much lower than expected, of around 20 meteors h-1. Despite of the small meteor flux in the optical range, we have obtained precise atmospheric trajectory, radiant and orbital information for 11 meteor and fireball events associated with this stream. The ablation behaviour and low tensile strength calculated for these particles reveal that Camelopardalid meteoroids are very fragile, mostly pristine aggregates with strength similar to that of the Orionids and the Leonids. The mineral grains seem to be glued together by a volatile phase. We also present and discuss two unique emission spectra produced by two Camelopardalid bright meteors. These suggest a non-chondritic nature for these particles, which exhibit Fe depletion in their composition., Comment: Accepted for publication in Monthly Notices of the Royal Astronomical Society on Sept. 22, 2014

Published

2014

49. Bright Fireballs Associated with the Potentially Hazardous Asteroid 2007LQ19

Author

Madiedo, Jose M., Trigo-Rodriguez, Josep M., Ortiz, Jose L., Castro-Tirado, Alberto J., and Cabrera-Caño, Jesus

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We analyze here two very bright fireballs produced by the ablation in the atmosphere of two large meteoroids in 2009 and 2010. These slow-moving and deep-penetrating events were observed over Spain in the framework of our Spanish Fireball Network continuous meteor monitoring campaign. The analysis of the emission spectrum imaged for one of these fireballs has provided the first clues about the chemical nature of the progenitor meteoroids. The orbital parameters of these particles suggests a likely association with the recently identified July rho-Herculid meteoroid stream. In addition, considerations about the likely parent body of this stream are also made on the basis of orbital dissimilarity criteria. This orbital analysis reveals that both meteoroids and PHA 2007LQ19 exhibit a similar evolution during a time period of almost 8,000 years, which suggests that either this NEO is the potential parent of these particles or that this NEO and both meteoroids had a common progenitor in the past., Comment: Accepted for publication in Monthly Notices of the Royal Astronomical Society(MNRAS) on 2014 June 23

Published

2014

50. Comets formed in solar-nebula instabilities! -- An experimental and modeling attempt to relate the activity of comets to their formation process (corrigendum included)

Author

Blum, Jürgen, Gundlach, Bastian, Mühle, Steffen, and Trigo-Rodriguez, Josep M.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

When comet nuclei approach the Sun, the increasing energy flux through the surface layers leads to sublimation of the underlying ices and subsequent outgassing that promotes the observed emission of gas and dust. The ejection of dust requires that the forces binding the dust particles to the comet nucleus must be overcome by the forces caused by the sublimation process. This relates to the question of how large the tensile strength of the overlying dust layer is. Homogeneous layers of micrometer-sized dust particles reach tensile strengths of typically $10^3$ to $10^4$ Pa. This exceeds by far the maximum sublimation pressure of water ice in comets. It is therefore unclear how cometary dust activity is driven. To solve this paradox, we used the model by Skorov and Blum (Icarus 221, 1-11, 2012), who assumed that cometesimals formed by gravitational instability of a cloud of dust and ice aggregates and calculated for the corresponding structure of comet nuclei tensile strength of the dust-aggregate layers on the order of 1 Pa. Here we present evidence that the emitted cometary dust particles are indeed aggregates with the right properties to fit the model by Skorov and Blum. Then we experimentally measure the tensile strengths of layers of laboratory dust aggregates and confirm the values derived by the model. To explain the comet activity driven by the evaporation of water ice, we derive a minimum size for the dust aggregates of $\sim 1$ mm, in agreement with meteoroid observations and dust-agglomeration models in the solar nebula. Finally we conclude that cometesimals must have formed by gravitational instability, because all alternative formation models lead to higher tensile strengths of the surface layers., Comment: The pdf file includes the main document and the corrigendum to the main article (just scroll through the pdf)

Published

2014