Artemis II crew lunar observations team member, Alex Stoken, monitors the mission from the Science Evaluation Room (SER). Built specifically for Artemis missions with these science priorities in mind, the SER is equipped to support rapid data interpretation, collaborative analysis, real-time decision making, and seamless coordination between the science and operations teams. Credits: NASA/Luna Posadas Nava

Jared Ralleta, Artemis II lunar science team member, reacts to the lunar flyby crew observations in the Science Evaluation Room (SER). Built specifically for Artemis missions with these science priorities in mind, the SER is equipped to support rapid data interpretation, collaborative analysis, real-time decision making, and seamless coordination between the science and operations teams. Credits: NASA/Luna Posadas Nava

Artemis II deputy lunar science lead, Jacob Richardson, celebrates with a dance after hearing astronauts describe seeing impact flashes on the Moon during their lunar flyby on April 6, 2026. Richardson was monitoring the flyby from the Science Evaluation Room (SER) in Mission Control at NASA’s Johnson Space Center in Houston. Built specifically for Artemis missions with these science priorities in mind, the SER is equipped to support rapid data interpretation, collaborative analysis, real-time decision making, and seamless coordination between the science and operations teams. Credits: NASA/Luna Posadas Nava

Artemis II deputy lunar science lead Marie Henderson, background, and lunar science team members, Ariel Deutsch, and Ryan Ewing, react to crew observations during the lunar flyby on April 6, 2026. The team worked in the Science Evaluation Room (SER) in Mission Control at NASA’s Johnson Space Center in Houston. Built specifically for Artemis missions with these science priorities in mind, the SER is equipped to support rapid data interpretation, collaborative analysis, real-time decision making, and seamless coordination between the science and operations teams. Credits: NASA/Luna Posadas Nava

jsc2026e021376 (April 6, 2026) - Nicky Fox, associate administrator for NASA's Science Mission Directorate and Brad Bailey, assistant deputy associate administrator for exploration, observe and celebrate a successful lunar flyby with the Artemis II lunar science team in the Science Evaluation Room in Mission Control at NASA's Johnson Space Center in Houston. Credits: NASA/Luna Posadas Nava

Artemis II deputy lunar science lead, Marie Henderson, reacts to the astronauts' verbal observations of the Moon during their flyby on April 6, 2026. Along with other lunar science team members, Henderson helped train the astronauts in geology both in the classroom and in the field. The team also built the lunar targeting plan that, like an International Space Station spacewalk plan, provides strong, detailed observation guidance, plus flexibility for the crew to make decisions based on what they’re seeing and experiencing in real time. The science team had many moments of celebration during the lunar flyby as the astronauts took images of the Moon and provided verbal descriptions of what they were seeing. This type of information reveals the geologic history of an area and will be critical to collect when future Artemis astronauts explore the Moon's surface. Credits: NASA/Luna Posadas Nava

Artemis II deputy lunar science lead, Jacob Richardson, left, and Artemis II lunar science team members, Kiarre Dumes, react to the astronauts' verbal observations of the Moon during their flyby on April 6, 2026. Along with other lunar science team members, Richardson and Dumes helped train the crew in geology both in the classroom and in the field. The science team also built the lunar targeting plan that, like an International Space Station spacewalk plan, provides strong, detailed observation guidance, plus flexibility for the crew to make decisions based on what they’re seeing and experiencing in real time. The science team had many moments of celebration during the lunar flyby as the astronauts took images of the Moon and provided verbal descriptions of what they were seeing. This type of information reveals the geologic history of an area and will be critical to collect when future Artemis astronauts explore the Moon's surface. Credits: NASA/Luna Posadas Nava

Artemis curation lead, Juliane Gross, reacts to the astronauts' verbal observations of the Moon during their flyby on April 6, 2026. Along with other members of the Artemis II lunar science team, Gross helped train the Artemis II crew in geology both in the classroom and in the field. The team also built the lunar targeting plan that, like an International Space Station spacewalk plan, provides strong, detailed observation guidance, plus flexibility for the crew to make decisions based on what they’re seeing and experiencing in real time. The science team had many moments of celebration during the lunar flyby as the astronauts took images of the Moon and provided verbal descriptions of what they were seeing. This type of information reveals the geologic history of an area and will be critical to collect when future Artemis astronauts explore the Moon's surface. Credits: NASA/Luna Posadas Nava

Artemis II lunar science team members, from left, Debra Needham, Juliane Gross, and Ryan Watkins, react to the astronauts' verbal observations of the Moon during their flyby on April 6, 2026. The science team trained the astronauts in geology and observation, both in the classroom and in the field. The team also built the lunar targeting plan that, like an International Space Station spacewalk plan, provides strong, detailed observation guidance, plus flexibility for the crew to make decisions based on what they’re seeing and experiencing in real time. The science team had many moments of celebration during the lunar flyby as the astronauts took images of the Moon and provided verbal descriptions of what they were seeing. This type of information reveals the geologic history of an area and will be critical to collect when future Artemis astronauts explore the Moon's surface. Credits: NASA/Luna Posadas Nava

Artemis II deputy lunar science lead, Marie Henderson, reacts to the astronauts' verbal observations of the Moon during their flyby on April 6, 2026. Along with other lunar science team members, Ewing helped train the crew in geology both in the classroom and in the field. The science team also built the lunar targeting plan that, like an International Space Station spacewalk plan, provides strong, detailed observation guidance, plus flexibility for the crew to make decisions based on what they’re seeing and experiencing in real time. The science team had many moments of celebration during the lunar flyby as the astronauts took images of the Moon and provided verbal descriptions of what they were seeing. This type of information reveals the geologic history of an area and will be critical to collect when future Artemis astronauts explore the Moon's surface. Credits: NASA/Luna Posadas Nava

Artemis II lunar science team member, Ryan Ewing, reacts to the astronauts' verbal observations of the Moon during their flyby on April 6, 2026. Along with other lunar science team members, Ewing helped train the crew in geology both in the classroom and in the field. The science team also built the lunar targeting plan that, like an International Space Station spacewalk plan, provides strong, detailed observation guidance, plus flexibility for the crew to make decisions based on what they’re seeing and experiencing in real time. The science team had many moments of celebration during the lunar flyby as the astronauts took images of the Moon and provided verbal descriptions of what they were seeing. This type of information reveals the geologic history of an area and will be critical to collect when future Artemis astronauts explore the Moon's surface. Credits: NASA/Luna Posadas Nava

Artemis II lunar science team member, Ariel Deutsch, reacts to the astronauts' verbal observations of the Moon during their flyby on April 6. The science team has spent years training the astronauts in geology and observation, both in the classroom and in the field. They also built the lunar targeting plan that, like a spacewalk plan, provides strong, detailed observation guidance, plus flexibility for the crew to make decisions based on what they’re seeing and experiencing in real time. The science team had many moments of celebration during the lunar flyby as the astronauts took pictures of the Moon and provided verbal descriptions of what they were seeing. This type of information reveals the geologic history of an area and will be critical to collect when future Artemis astronauts explore the Moon's surface. Credits: NASA/Luna Posadas Nava

Ernie Wright, Artemis II lunar science visualization lead, reacts to hearing the astronauts describe features of the Moon as they few by on April 6, 2026. To prepare the crew for this mission, the Artemis II lunar science team trained the astronauts in geology, both in the classroom and in the field. They also built the lunar targeting plan that, which, like an International Space Station spacewalk plan, provides strong, detailed observation guidance, plus flexibility for the crew to make decisions based on what they’re seeing and experiencing in real time. The science team had many moments of celebration during the lunar flyby as the astronauts took images of the Moon and provided verbal descriptions of what they were seeing. This type of information reveals the geologic history of an area and will be critical to collect when future Artemis astronauts explore the Moon's surface. Credits: NASA/Luna Posadas Nava