Vishnu Reddy, Michael S. Kelley, L. Benner, J. Dotson, N. Erasmus, Davide Farnocchia, Tyler Linder, Joseph R. Masiero, Cristina Thomas, J. Bauer, M. R. Alarcon, P. Bacci, D. Bamberger, Adam Battle, Z. Benkhaldoun, Guido Betti, M. Birlan, Marina Brozovic, B. Burt, D. Cantillo, Sunil Chandra, Grégoire Chomette, Ashley Coates, F. DeMeo, M. Devogéle, P. Fatka, M. Ferrais, P. Fini, Carel van Gend, J. Giorgini, Dmitry Glamazda, Robert Holmes, Joseph L. Hora, Shinji Horiuchi, K. Hornoch, Marco Iozzi, Cristóvão Jacques, E. Jehin, Hai Jiang, Galina Kaiser, P. Kušnirák, Eduard Kuznetsov, J. de León, A. Liakos, J. Licandro, Tim A. Lister, Jing Liu, A. López-Oquendo, M. Maestripieri, D. Mathias, Marco Micheli, S. Naidu, A. Nastasi, A. Nedelcu, E. Petrescu, M. Popescu, Stephen B Potter, P. Pravec, Juan A. Sanchez, T. Santana-Ros, M. Serra-Ricart, N. Sioulas, A. Sonka, Alessio Squilloni, M. Tombelli, M. Trelia, D. Trilling, Elizabeth M. Warner, G. Wells, L. Wheeler, Mike Wiles
{"title":"2023 DZ2 行星防御战役","authors":"Vishnu Reddy, Michael S. Kelley, L. Benner, J. Dotson, N. Erasmus, Davide Farnocchia, Tyler Linder, Joseph R. Masiero, Cristina Thomas, J. Bauer, M. R. Alarcon, P. Bacci, D. Bamberger, Adam Battle, Z. Benkhaldoun, Guido Betti, M. Birlan, Marina Brozovic, B. Burt, D. Cantillo, Sunil Chandra, Grégoire Chomette, Ashley Coates, F. DeMeo, M. Devogéle, P. Fatka, M. Ferrais, P. Fini, Carel van Gend, J. Giorgini, Dmitry Glamazda, Robert Holmes, Joseph L. Hora, Shinji Horiuchi, K. Hornoch, Marco Iozzi, Cristóvão Jacques, E. Jehin, Hai Jiang, Galina Kaiser, P. Kušnirák, Eduard Kuznetsov, J. de León, A. Liakos, J. Licandro, Tim A. Lister, Jing Liu, A. López-Oquendo, M. Maestripieri, D. Mathias, Marco Micheli, S. Naidu, A. Nastasi, A. Nedelcu, E. Petrescu, M. Popescu, Stephen B Potter, P. Pravec, Juan A. Sanchez, T. Santana-Ros, M. Serra-Ricart, N. Sioulas, A. Sonka, Alessio Squilloni, M. Tombelli, M. Trelia, D. Trilling, Elizabeth M. Warner, G. Wells, L. Wheeler, Mike Wiles","doi":"10.3847/PSJ/ad4a6d","DOIUrl":null,"url":null,"abstract":"We present the results of a fourth planetary defense exercise, focused this time on the small near-Earth asteroid (NEA) 2023 DZ2 and conducted during its close approach to the Earth in 2023 March. The International Asteroid Warning Network (IAWN), with support from NASA's Planetary Defense Coordination Office (PDCO), has been coordinating planetary defense observational campaigns since 2017 to test the operational readiness of the global planetary defense capabilities. The last campaign focused on the NEA Apophis, and an outcome of that exercise was the need for a short burst campaign to replicate a real-life near-Earth object impact hazard scenario. The goal of the 2023 DZ2 campaign was to characterize the small NEA as a potential impactor and exercise the planetary defense system including observations, hypothetical risk assessment and risk prediction, and hazard communication with a short notice of just 24 hr. The entire campaign lasted about 10 days. The campaign team was divided into several working groups based on the characterization method: photometry, spectroscopy, thermal IR photometry and optical polarimetry, radar, and risk assessment. Science results from the campaign show that 2023 DZ2 has a rotation period of 6.2745 ± 0.0030 minutes; visible wavelength color photometry/spectroscopy/polarimetry and near-IR spectroscopy all point to an E-type taxonomic classification with surface composition analogous to aubrite meteorites; and radar observations show that the object has a diameter of 30 ± 10 m, consistent with the high albedo (0.49) derived from polarimetric and thermal IR observations.","PeriodicalId":3,"journal":{"name":"ACS Applied Electronic Materials","volume":"53 8","pages":""},"PeriodicalIF":4.7000,"publicationDate":"2024-06-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"2023 DZ2 Planetary Defense Campaign\",\"authors\":\"Vishnu Reddy, Michael S. Kelley, L. Benner, J. Dotson, N. Erasmus, Davide Farnocchia, Tyler Linder, Joseph R. Masiero, Cristina Thomas, J. Bauer, M. R. Alarcon, P. Bacci, D. Bamberger, Adam Battle, Z. Benkhaldoun, Guido Betti, M. Birlan, Marina Brozovic, B. Burt, D. Cantillo, Sunil Chandra, Grégoire Chomette, Ashley Coates, F. DeMeo, M. Devogéle, P. Fatka, M. Ferrais, P. Fini, Carel van Gend, J. Giorgini, Dmitry Glamazda, Robert Holmes, Joseph L. Hora, Shinji Horiuchi, K. Hornoch, Marco Iozzi, Cristóvão Jacques, E. Jehin, Hai Jiang, Galina Kaiser, P. Kušnirák, Eduard Kuznetsov, J. de León, A. Liakos, J. Licandro, Tim A. Lister, Jing Liu, A. López-Oquendo, M. Maestripieri, D. Mathias, Marco Micheli, S. Naidu, A. Nastasi, A. Nedelcu, E. Petrescu, M. Popescu, Stephen B Potter, P. Pravec, Juan A. Sanchez, T. Santana-Ros, M. Serra-Ricart, N. Sioulas, A. Sonka, Alessio Squilloni, M. Tombelli, M. Trelia, D. Trilling, Elizabeth M. Warner, G. Wells, L. 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The goal of the 2023 DZ2 campaign was to characterize the small NEA as a potential impactor and exercise the planetary defense system including observations, hypothetical risk assessment and risk prediction, and hazard communication with a short notice of just 24 hr. The entire campaign lasted about 10 days. The campaign team was divided into several working groups based on the characterization method: photometry, spectroscopy, thermal IR photometry and optical polarimetry, radar, and risk assessment. 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We present the results of a fourth planetary defense exercise, focused this time on the small near-Earth asteroid (NEA) 2023 DZ2 and conducted during its close approach to the Earth in 2023 March. The International Asteroid Warning Network (IAWN), with support from NASA's Planetary Defense Coordination Office (PDCO), has been coordinating planetary defense observational campaigns since 2017 to test the operational readiness of the global planetary defense capabilities. The last campaign focused on the NEA Apophis, and an outcome of that exercise was the need for a short burst campaign to replicate a real-life near-Earth object impact hazard scenario. The goal of the 2023 DZ2 campaign was to characterize the small NEA as a potential impactor and exercise the planetary defense system including observations, hypothetical risk assessment and risk prediction, and hazard communication with a short notice of just 24 hr. The entire campaign lasted about 10 days. The campaign team was divided into several working groups based on the characterization method: photometry, spectroscopy, thermal IR photometry and optical polarimetry, radar, and risk assessment. Science results from the campaign show that 2023 DZ2 has a rotation period of 6.2745 ± 0.0030 minutes; visible wavelength color photometry/spectroscopy/polarimetry and near-IR spectroscopy all point to an E-type taxonomic classification with surface composition analogous to aubrite meteorites; and radar observations show that the object has a diameter of 30 ± 10 m, consistent with the high albedo (0.49) derived from polarimetric and thermal IR observations.
期刊介绍:
ACS Applied Electronic Materials is an interdisciplinary journal publishing original research covering all aspects of electronic materials. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials science, engineering, optics, physics, and chemistry into important applications of electronic materials. Sample research topics that span the journal's scope are inorganic, organic, ionic and polymeric materials with properties that include conducting, semiconducting, superconducting, insulating, dielectric, magnetic, optoelectronic, piezoelectric, ferroelectric and thermoelectric.
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