OSIRIS-REx

URI: https://gptkb.org/entity/OSIRIS-REx

GPTKB entity

Statements (232)

Predicate	Object
gptkbp:instance_of	gptkb:spacecraft gptkb:space_mission
gptkbp:collaboration	gptkb:Canadian_Space_Agency gptkb:Lockheed_Martin gptkb:University_of_California,_Berkeley gptkb:University_of_Arizona gptkb:NASA_Goddard_Space_Flight_Center global scientific partnerships
gptkbp:collaborations	gptkb:Canadian_Space_Agency gptkb:Lockheed_Martin gptkb:University_of_Arizona gptkb:Japan_Aerospace_Exploration_Agency gptkb:NASA_Goddard_Space_Flight_Center
gptkbp:collaborator	gptkb:Canadian_Space_Agency gptkb:Lockheed_Martin gptkb:University_of_California,_Berkeley gptkb:University_of_Arizona gptkb:NASA_Goddard_Space_Flight_Center
gptkbp:collection	sample site selection data spectral data of Bennu thermal data of Bennu topographical data of Bennu
gptkbp:community_engagement	live events social media presence educational outreach programs public lectures social media updates live mission updates interactive websites
gptkbp:community_outreach	gptkb:educational_programs community involvement live events social media engagement
gptkbp:contribution	planetary defense strategies
gptkbp:data_return	approximately 60 grams of material
gptkbp:data_transmission	gptkb:Earth
gptkbp:date	September 24, 2023 October 20, 2020
gptkbp:funding	gptkb:NASA NASA budget approximately $800 million
https://www.w3.org/2000/01/rdf-schema#label	OSIRIS-REx
gptkbp:impact	enhanced understanding of asteroid composition advances in planetary science provided insights into planetary formation contributions to planetary defense strategies advancing planetary science contributing to planetary defense strategies enhancing understanding of asteroids providing insights into organic materials supporting future exploration missions insights into asteroid composition contributed to the study of potential asteroid threats advancement in asteroid research
gptkbp:impact_risk_assessment	study of near-Earth objects
gptkbp:instrument	gptkb:OSIRIS-REx_Laser_Altimeter gptkb:NOVA gptkb:Regolith_X-ray_Imaging_Spectrometer Thermal Emission Spectrometer OCAMS
gptkbp:instruments	gptkb:OSIRIS-REx_Laser_Altimeter gptkb:NOVA gptkb:Regolith_X-ray_Imaging_Spectrometer gptkb:Touch-and-Go_Sample_Acquisition_Mechanism Thermal Emission Spectrometer OCAMS Touch-and-Go Sample Mechanism
gptkbp:is_a_destination_for	gptkb:Bennu gptkb:asteroid_Bennu
gptkbp:landing_site	December 3, 2018
gptkbp:launch_date	September 8, 2016
gptkbp:launch_site	gptkb:Cape_Canaveral_Space_Force_Station
gptkbp:launch_vehicle	gptkb:Atlas_V_411
gptkbp:launched	gptkb:NASA September 8, 2016
gptkbp:legacy	public engagement in space science planetary defense research understanding solar system formation asteroid mining research future asteroid missions
gptkbp:mass	approximately 60 grams 60 grams (estimated)
gptkbp:mission	gptkb:first_U._S._mission_to_collect_asteroid_samples completed sample collection sample return study of planetary formation communication delays understand the origin of life inspired follow-up missions to other asteroids cruise phase return phase sample collection phase return samples to Earth successful sample return approach phase completed sample collection sample collection precision study the returned samples mapping phase returning to Earth study the solar system's history comparison with meteorites investigation of astrobiology laboratory analysis of samples achieved primary mission objectives navigational complexities successful rendezvous with an asteroid successful return of samples to Earth successful sample collection from an asteroid orbital survey prepare for future asteroid missions
gptkbp:mission_duration	approximately 7 years
gptkbp:mission_type	gptkb:spacecraft sample return sample return mission
gptkbp:movement	gptkb:Earth
gptkbp:objective	collect and return a sample from an asteroid collect samples from asteroid Bennu
gptkbp:operated_by	gptkb:NASA
gptkbp:operational_status	completed sample collection
gptkbp:operator	gptkb:NASA
gptkbp:orbit_type	gptkb:Bennu
gptkbp:orbital_altitude	gptkb:Bennu performed successfully Bennu orbit insertion Earth gravity assist
gptkbp:partnerships	international collaborations
gptkbp:payload_capacity	gptkb:camera gptkb:Dunmer gptkb:spectrometer gptkb:Deep_Learning_Super_Sampling thermal emission spectrometer visible and infrared spectrometer X-ray fluorescence spectrometer touch-and-go sample acquisition mechanism
gptkbp:primary_mission	gptkb:OSIRIS-APEX
gptkbp:provides_information_on	gptkb:scientific_community open access to scientific data collaborative research opportunities
gptkbp:public_interest	increased awareness of asteroids
gptkbp:publications	peer-reviewed articles collaborative research projects data sharing initiatives open access data conference presentations
gptkbp:recovery_method	sample return capsule
gptkbp:return_capsule_landing_site	gptkb:Utah_Test_and_Training_Range
gptkbp:return_capsule_recovery	NASA recovery team
gptkbp:return_sample_location	gptkb:Johnson_Space_Center
gptkbp:returned_sample_from	gptkb:Bennu gptkb:asteroid_Bennu
gptkbp:returned_sample_on	September 24, 2023
gptkbp:returned_samples_mass	approximately 60 grams
gptkbp:sample_analysis_location	gptkb:Johnson_Space_Center
gptkbp:sample_containment	return capsule
gptkbp:sample_return_location	gptkb:Utah_Test_and_Training_Range gptkb:Earth
gptkbp:sampled_in	gptkb:Touch-and-Go_(TAG)_maneuver geological history organic compounds laboratories on Earth solar system evolution conducted by multiple institutions insights into the early solar system water presence performed by multiple laboratories comparison with meteorites asteroid surface processes investigation of potential resources laboratory analysis of returned samples study of prebiotic chemistry
gptkbp:scientific_goals	understand solar system formation study the origin of the solar system study asteroid composition return samples to Earth study the asteroid's surface analyze the asteroid's composition understand the formation of the solar system understand the role of asteroids in delivering organic materials characterize the physical and chemical properties of Bennu analyze the potential for asteroid impact study the composition of Bennu
gptkbp:scientific_instruments	gptkb:OSIRIS-REx_Laser_Altimeter gptkb:Touch-and-Go_Camera_System gptkb:NOVA gptkb:Regolith_X-ray_Imaging_Spectrometer gptkb:cannon LIDAR Thermal Emission Spectrometer OCAMS SRL OTES OVIRS TAGCAMS
gptkbp:significant_event	collaboration with international space agencies collaboration with universities and research institutions contribution to planetary defense research first spacecraft to collect a sample from a carbonaceous asteroid analysis of returned samples for organic compounds analysis of the asteroid's mineralogy analysis of the asteroid's surface features analysis of the asteroid's volatile content development of advanced imaging techniques first asteroid sample return mission by the US inspiration for future missions to other asteroids investigation of asteroid's composition investigation of asteroid's geology investigation of the asteroid's surface processes mapping of Bennu's surface public engagement and education initiatives investigation of the role of asteroids in delivering water to Earth sample analysis to study the origin of life study of asteroid's thermal properties study of space weathering effects on asteroids study of the asteroid's chemical composition study of the asteroid's impact history study of the asteroid's rotation and orbit study of the asteroid's thermal history study of the building blocks of life successful Earth re-entry successful sample collection from Bennu investigation of the asteroid's relationship to the early solar system. study of the asteroid's potential for past habitability development of new technologies for asteroid exploration enhancement of our understanding of the solar system's history investigation of the asteroid's potential for future resource utilization
gptkbp:spacecraft	orbiter and lander
gptkbp:targeted_asteroid	gptkb:Bennu
gptkbp:team	gptkb:Dante_Lauretta
gptkbp:bfsParent	gptkb:NASA
gptkbp:bfsLayer	3