Freedom Is Once Again Bound for the ISS...

SpaceX

NASA’s SpaceX Crew-12 Launches to International Space Station (News Release)

Four crew members of NASA’s SpaceX Crew-12 mission launched at 5:15 a.m. EST on Friday from Space Launch Complex 40 at Cape Canaveral Space Force Station in Florida, for a science expedition aboard the International Space Station.

A SpaceX Falcon 9 rocket propelled the Dragon Freedom spacecraft into orbit carrying NASA astronauts Jessica Meir and Jack Hathaway, ESA (European Space Agency) astronaut Sophie Adenot, and Roscosmos cosmonaut Andrey Fedyaev. The spacecraft will dock autonomously to the space-facing port of the station’s Harmony module at approximately 3:15 p.m. on Saturday, February 14.

“With Crew-12 safely on orbit, America and our international partners once again demonstrated the professionalism, preparation and teamwork required for human spaceflight,” said NASA Administrator Jared Isaacman. “The research this crew will conduct aboard the space station advances critical technologies for deep space exploration while delivering real benefits here on Earth. I’m grateful to the NASA and SpaceX teams whose discipline, rigor and resilience made today’s launch possible. We undertake these missions with a clear understanding of risk, managing it responsibly so we can continue expanding human presence in low-Earth orbit while preparing for our next great leap to the Moon and onward to Mars.”

During Dragon’s flight, SpaceX will monitor a series of automatic spacecraft maneuvers from its mission control center in Hawthorne, California. NASA will monitor space station operations throughout the flight from the Mission Control Center at the agency’s Johnson Space Center in Houston.

NASA’s live coverage resumes at 1:15 p.m. Saturday on NASA+, Amazon Prime and the agency’s YouTube channel with rendezvous, docking and hatch opening. After docking, the crew will change out of their spacesuits and prepare cargo for offload before opening the hatch between Dragon and the space station’s Harmony module around 5 p.m. NASA will also provide coverage of the welcome ceremony aboard the space station shortly following hatch opening.

Learn how to watch NASA content through a variety of platforms, including social media.

Meir, Hathaway, Adenot and Fedyaev will join the Expedition 74 crew, including NASA astronaut Chris Williams and Roscosmos cosmonauts Sergey Kud-Sverchkov and Sergei Mikaev already aboard the orbiting laboratory, returning the space station to its standard seven crew members complement following the January 14 departure of NASA’s SpaceX Crew-11 mission.

During its mission, Crew-12 will conduct scientific research to prepare for human exploration beyond low-Earth orbit and to benefit humanity on Earth. Participating crew members will study pneumonia-causing bacteria to improve cardiovascular treatments, on-demand intravenous fluid generation for future space missions, and research on how physical characteristics may affect blood flow during spaceflight. Other experiments include automated plant health monitoring and investigations of plant and nitrogen-fixing microbe interactions to enhance food production in space.

Crew-12 is part of NASA’s Commercial Crew Program, which provides reliable access to space, maximizing the use of the station for research and development, and supporting future missions beyond low-Earth orbit by partnering with private companies to transport astronauts to and from the International Space Station.

Source: NASA.Gov

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SpaceX

The Latest Update on the Next Wet Dress Rehearsal for the Second SLS Flight...

NASA / John Kraus

NASA Conducts Repairs, Analysis Ahead of Next Artemis II Fueling Test (News Release)

Since concluding a wet dress rehearsal on February 3 ahead of Artemis II, technicians have replaced two seals in an area where operators saw higher-than-allowable hydrogen gas concentrations during the test. Engineers are analyzing the removed seals and developing plans to address all issues ahead of the next rehearsal.

Once the SLS (Space Launch System) rocket’s tanks were drained of cryogenic propellant following the previous test, technicians immediately began work to access the tail service mast umbilical on the Mobile Launcher and detach rocket and ground-side interface plates to inspect the area of the elevated gas levels, and replace seals around two fueling lines.

Two tail service masts, each about three stories tall, provide cryogenic propellant lines and electrical cable connections to the SLS core stage. The tail service masts tilt back before launch and include “quick disconnects,” mechanisms that instantaneously disconnect at liftoff to ensure a safe and reliable retraction at launch.

While teams continue evaluating the cause of the leak, reconnecting the interfaces is expected to be completed on Monday, February 9. Testing is planned to occur at NASA’s Stennis Space Center in Bay St. Louis, Mississippi, to evaluate additional dynamics of the plates. Engineers are reviewing options to test the repair work prior to the next wet dress rehearsal to ensure that the seals are performing as expected.

NASA will also update several operations for the next wet dress rehearsal to focus on fueling activities. The Orion crew module hatch will be closed prior to the test, and the closeout crew responsible on launch day for assisting the Artemis II crew into their seats and closing Orion’s two hatches will not be deployed to the launch pad. The crew access arm will not be retracted during the next rehearsal, after engineers successfully demonstrated that the ground launch sequencer can retract it during the final phase of the countdown.

Additionally, NASA has added 30 minutes of extra time during each of two planned holds in the countdown before and after tanking operations to allow more time for troubleshooting, increasing the total time of the countdown by one hour. The additional time will not affect the crew’s timeline on launch day.

Since emerging from quarantine, NASA astronauts Reid Wiseman, Victor Glover and Christina Koch, and CSA (Canadian Space Agency) astronaut Jeremy Hansen, have continued training activities, ensuring that their familiarity with Orion spacecraft systems is second nature. The astronauts have also been reviewing the details of each flight day for the mission, bolstering their knowledge of test objectives planned during the flight.

While NASA continues to eye March as the next potential launch opportunity, the agency will not set a targeted launch date until after completing a successful wet dress rehearsal and reviewing the data.

Source: NASA.Gov

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Did you know...

...that the @NASAArtemis II Moon rocket is 322 feet tall? That’s just a few yards shy of the length of a football field.

Bet you thought we were going to say something else about #SBLX. 😉 pic.twitter.com/xPj2uNlGWf

— NASA (@NASA) February 8, 2026

The Latest Update on Humanity's First Orbital Moon Outpost...

Lanteris Space Systems

Gateway’s Power and Propulsion Element Undergoes Battery Installations (Photo Release)

Gateway’s Power and Propulsion Element (PPE) undergoes battery installations at Lanteris Space Systems in Palo Alto, California, in January 2026.

PPE is a 60-kilowatt solar electric propulsion spacecraft that will supply the lunar space station with power, high-rate communications, attitude control, orbit maintenance, and orbit transfer capabilities.

The PPE's design is based on Lanteris Space Systems’ commercial 1300 bus, enhanced with the most powerful Advanced Electric Propulsion System (AEPS) thrusters and the largest roll-out solar arrays (ROSAs) ever developed.

Lanteris Space Systems is the lead industry partner for PPE’s design, manufacturing and integration.

Source: NASA.Gov

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Lanteris Space Systems


Lanteris Space Systems


Lanteris Space Systems

The Second Flight of SLS Is Now Scheduled for Next Month...

NASA / John Kraus

NASA Conducts Artemis II Fuel Test, Eyes March for Launch Opportunity (News Release)

NASA concluded a wet dress rehearsal for the agency’s Artemis II test flight early Tuesday morning, successfully loading cryogenic propellant into the SLS (Space Launch System) tanks, sending a team out to the launch pad to close out Orion, and safely draining the rocket. The wet dress rehearsal was a prelaunch test to fuel the rocket, designed to identify any issues and resolve them before attempting a launch.

Engineers pushed through several challenges during the two-day test and met many of the planned objectives. To allow teams to review data and conduct a second wet dress rehearsal, NASA will now target March as the earliest possible launch opportunity for the flight test.

Moving off a February launch window also means that the Artemis II astronauts will be released from quarantine, which they entered in Houston on January 21. As a result, they will not travel to NASA’s Kennedy Space Center in Florida on Tuesday as tentatively planned. The crew will enter quarantine again about two weeks out from the next targeted launch opportunity.

NASA began the approximately 49-hour countdown at 8:13 p.m. EST on January 31. Leading up to, and throughout tanking operations on February 2, engineers monitored how cold weather at Kennedy impacted systems and put procedures in place to keep the hardware safe. Cold temperatures caused a late start to tanking operations, as it took time to bring some interfaces to acceptable temperatures before propellant-loading operations began.

During tanking, engineers spent several hours troubleshooting a liquid hydrogen leak in an interface used to route the cryogenic propellant into the rocket’s core stage, putting them behind in the countdown. Attempts to resolve the issue involved stopping the flow of liquid hydrogen into the core stage, allowing the interface to warm up for the seals to reseat, and adjusting the flow of the propellant.

Teams successfully filled all tanks in both the core stage and interim cryogenic propulsion stage before a team of five was sent to the launch pad to finish Orion closeout operations. Engineers conducted a first run at terminal countdown operations during the test, counting down to approximately 5 minutes left in the countdown, before the ground launch sequencer automatically stopped the countdown due to a spike in the liquid hydrogen leak rate.

In addition to the liquid hydrogen leak, a valve associated with Orion crew module hatch pressurization, which recently was replaced, required retorquing, and closeout operations took longer than planned. Cold weather that affected several cameras and other equipment didn’t impede wet dress rehearsal activities, but would have required additional attention on launch day. Finally, engineers have been troubleshooting dropouts of audio communication channels across ground teams in the past few weeks leading up to the test.

Several dropouts reoccurred during the wet dress rehearsal.

The team carried out updated procedures to purge the Orion service module’s cavities with breathing air during closeout crew operations rather than gaseous nitrogen to ensure that the team assisting the crew into their seats and closing Orion’s hatches can safely operate in the White Room.

With March as the potential launch window, teams will fully review data from the test, mitigate each issue, and return to testing ahead of setting an official target launch date.

Crew safety will remain the highest priority, ensuring that NASA astronauts Reid Wiseman, Victor Glover and Christina Koch, and CSA (Canadian Space Agency) astronaut Jeremy Hansen, return home at the end of their mission.

Source: NASA.Gov

Blue Origin Will Temporarily Shift Focus from Suborbital Space to the Moon...

Blue Origin

Blue Origin to Pause New Shepard Flights for No Less Than Two Years (News Release - January 30)

Resources will be redirected to further accelerate lunar human flight program

Blue Origin announced today that it will pause its New Shepard flights and shift resources to further accelerate development of the company's human lunar capabilities. The decision reflects Blue Origin's commitment to the nation's goal of returning to the Moon and establishing a permanent, sustained lunar presence.

New Shepard is the first reusable spaceflight system to vertically land and has flown 38 times and carried 98 humans above the Kármán line to date. New Shepard has launched more than 200 scientific and research payloads from students, academia, research organizations, and NASA. This consistent and reliable performance, combined with an exceptional customer experience, has resulted in a multi-year customer backlog.

Source: Blue Origin

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Blue Origin / Dave Limp


Blue Origin


Blue Origin

The Fueling Test for the Second Flight of SLS Is Officially Underway...

NASA / Cory S Huston

Countdown Begins for Artemis II Wet Dress Rehearsal (News Release)

The countdown for the Artemis II wet dress rehearsal is underway at NASA’s Kennedy Space Center in Florida.

The countdown clock began at 8:13 p.m. EST, or L-48 hours, 40 minutes before the opening of a simulated launch window at 9 p.m. on Monday, February 2. The test is expected to go until approximately 1 a.m. on February 3.

This test will run the launch team, as well as supporting teams in the Mission Control Center at NASA’s Johnson Space Center in Houston and other supporting NASA centers, through a full range of operations, including loading cryogenic liquid propellant into the SLS (Space Launch System) rocket’s tanks, conducting a launch countdown, demonstrating the ability to recycle the countdown clock, and draining the tanks to practice scrub procedures. These steps ensure that the team is fully prepared for launch day.

A 24/7 live stream of the rocket at the pad continues online. NASA will provide a separate feed during tanking activities, as well as real-time blog post updates regarding the test during the fueling day.

Countdown Milestones

The countdown contains “L minus” and “T minus” times. “L minus” indicates how far away we are from liftoff in hours and minutes. “T minus” time is a sequence of events that are built into the countdown. Pauses in the countdown, or “holds,” are built into the countdown to allow the launch team to target a precise launch window, and to provide a cushion of time for certain tasks and procedures without impacting the overall schedule.

During planned holds in the countdown process, the countdown clock is intentionally stopped and the T- time also stops. The L- time, however, continues to advance.

During the rehearsal, the team will execute a detailed countdown sequence. They will pause at T-1 minute and 30 seconds for up to three minutes, then resume until T-33 seconds before launch and pause again. After that, they will recycle the clock back to T-10 minutes and conduct a second terminal countdown to approximately T-33 seconds before ending the sequence.

The recycling process simulates real-world conditions, including scenarios where a launch might be scrubbed due to technical or weather issues. At the end of the test, the team will drain the propellant and review all data before setting an official target launch date.

While the Artemis II crew members are not participating in the wet dress rehearsal, crew milestones occurring during launch day will be incorporated into the test timeline and the Artemis closeout crew will practice their closeout operations, which include closing the Orion crew module and launch abort system hatches.

Below are some of the key events that take place at each milestone after the countdown begins. All times are approximate for when these milestones are expected to occur.

L-49 hours 15 minutes and counting

-- L-49H, 15M: The launch team arrives on their stations and the countdown begins
-- L-48H40M: The countdown clock begins
-- L-47H30M – L-38H30M: Fill the water tank for the sound suppression system
-- L-48H45M – L-39H45M: Liquid Oxygen (LOX)/Liquid Hydrogen (LH2) system preparations for vehicle loading
-- L-39H30M – L-38H45M: The core stage is powered up
-- L-40H30M – L-39H: The interim cryogenic propulsion stage (ICPS) is powered up
-- L-38H45M – L-34H30M: Final preparations of the four RS-25 engines

L-34 hours 30 minutes and counting

-- L-33H45M – L-33H10M: The ICPS is powered down
-- L-32H30M – L-28H30M: Charge Orion flight batteries to 100%
-- L-30H30M – L-23H30M: Charge core stage flight batteries
-- L-19H15M – L-17H45M: The ICPS is powered-up for launch
-- L-19H30M – L-16H: Orion crew suit regulator leak checks

L-15 hours and counting

-- L-14H30M – L-13H: All non-essential personnel leave Launch Complex 39B
-- L-12H45M – 11H15M: Ground Launch Sequencer (GLS) activation
-- L-13H15M – L-11H05M: Air-to-gaseous nitrogen (GN2) changeover and vehicle cavity inerting

L-11 hours, 40 minutes and counting

-- L-11H35M – L-9H20M: 2-hour 15-minute built-in countdown hold begins
-- L-11H40M – L-10H30M: Launch team conducts a weather and tanking briefing
-- L-10H20M: Launch team decides if they are “go” or “no-go” to begin tanking the rocket
-- L-10H10M – L-9H50M: Core stage LOX transfer line chilldown
-- L-10H10M – L-9H25M: Core stage LH2 chilldown
--L-10H20M – L-9H: Orion cold soak

L-10 hours and counting

-- L-9H50M – L-9H10M: Core stage LOX main propulsion system chilldown
-- L-9H25M – L-9H: Core stage LH2 slow fill start
-- L-9H20M: Resume T-Clock from T-8H10M
-- L-9H10M – L-8H55M: Core stage LOX slow fill
-- L-9H – L-7H40M: Core stage LH2 fast fill
-- L-8H55M – L-6H10M: Core stage LOX fast fill
-- L-8H45M – L-8H10M: ICPS LH2 chilldown
-- L-8H10M – L-7H25M: ICPS LH2 fast fill start
-- L-7H45M – L-6H: ICPS LOX main propulsion system chilldown
-- L-7H40M – L-7H30M: Core stage LH2 topping
-- L-7H30M – terminal count: Core stage LH2 replenish
-- L-7H25M – L-7H05M: ICPS LH2 vent and relief test
-- L-7H05M – L-6H55M: ICPS LH2 tank topping start
-- L-6H50M – terminal count: ICPS LH2 replenish
-- L-6H10M – L-5H40M: Orion communications system activated (RF to mission control)
-- L-6H10M – L-5H40M: Core stage LOX topping

L-6 hours and counting

-- L-6H – L-5H15M: ICPS LOX fast fill
-- L-5H40M – terminal count: Core stage LOX replenish
-- L-5H15M – L-5H: ICPS LOX vent and relief test
-- L-5H – L-4H40M: ICPS LOX topping
-- L-5H40M: Stage pad rescue
-- L-5H40M: Closeout crew assemble
-- L-4H40M – terminal count: ICPS LOX replenish
-- L-4H40M: All stages replenish
-- L-4H40M: Start 40-minute built in hold
-- L-4H40M-L-4H25M: Closeout crew to white room
-- L-4H30M – L-4H20M: Crew Module hatch preps and closure
-- L-4H20M – L-3H20M: Counterbalance mechanism hatch sealpress decay checks
-- L-3H20M – L-2H40M: Crew Module Hatch service panel install/closeouts
-- L-2H40M – L2H20M: Launch Abort System (LAS) Hatch closure for flight
-- L-1H10M: Launch Director brief – Flight vehicle/TPS Scan results with CICE
-- L-1H45M – L-1H40M: Closeout crew departs Launch Complex 39B

L-40 minutes and holding

-- L-40M: Built in 30-minute countdown hold begins

L-25 minutes and holding

-- L-25M: Transition team to Orion-to-Earth communication loop following final NTD briefing
-- L-16M: The launch director polls the team to ensure that they are “go” for launch

T-10 minutes and counting

-- T-10M: Ground Launch Sequencer (GLS) initiates terminal count
-- T-8M: Crew Access Arm retract
-- T-6M: GLS go for core stage tank pressurization
-- T-6M: Orion set to internal power
-- T-5M57S: Core stage LH2 terminate replenish
-- T-4M: GLS is go for core stage auxiliary power unit (APU) start
-- T-4M: Core Stage APU starts
-- T-4M: Core stage LOX terminate replenish
-- T-3M30S: ICPS LOX terminate replenish
-- T-3M10S: GLS is go for purge sequence 4
-- T-2M02S: ICPS switches to internal battery power
-- T-2M: Booster switches to internal batter power
--T-1M30S: Hold for three minutes to verify core stage certification hold time
-- T-1M30S: Core stage switches to internal power
-- T-1M20S: ICPS enters terminal countdown mode
-- T-50S: ICPS LH2 terminate replenish
-- T-33S: GLS sends “go for automated launch sequencer” command
-- T-33S: GLS Cutoff/Recycle

Inside the terminal countdown, teams have a few options to hold the count if needed.

-- The launch team can hold at 6 minutes for the duration of the launch window, less the 6 minutes needed to launch, without having to recycle back to 10 minutes.
-- If teams need to stop the clock between T-6 minutes and T-1 minute, 30 seconds, they can hold for up to 3 minutes and resume the clock to launch. If they require more than 3 minutes of hold time, the countdown recycles back to T- 10.
-- If the clock stops after T-1 minute and 30 seconds, but before the automated launch sequencer takes over, then teams can recycle back to T-10 to try again, provided that there is adequate launch window remaining.
-- On launch day, after handover to the automated launch sequencer, any issue that would stop the countdown would lead to concluding the launch attempt for that day.

Source: NASA.Gov

A Fueling Test for the Next Flight of SLS Has Been Delayed by Freezing Weather in Florida...

NASA / Brandon Hancock

NASA Updates Artemis II Wet Dress Rehearsal, Launch Opportunities (News Release)

NASA is targeting Monday, February 2, as the tanking day for the upcoming Artemis II wet dress rehearsal at the agency’s Kennedy Space Center in Florida, as a result of weather. With this change, the first potential opportunity to launch is no earlier than Sunday, February 8.

Over the past several days, engineers have been closely monitoring conditions as cold weather and winds move through Florida. Managers have assessed hardware capabilities against the projected forecast given the rare arctic outbreak affecting the state and decided to change the timeline. Teams and preparations at the launch pad remain ready for the wet dress rehearsal.

However, adjusting the timeline for the test will position NASA for success during the rehearsal, as the expected weather this weekend would violate launch conditions.

While NASA will wait to set a launch date until teams have reviewed the outcome of the wet dress rehearsal, Friday, February 6, and Saturday, February 7, are no longer viable opportunities. Any additional delays would result in a day for day change.

The Artemis II crew remains in quarantine in Houston. Managers are assessing the timeline for crew arrival.

The opening of a simulated launch window during the wet dress rehearsal begins at 9 p.m. EST, February 2, with the countdown beginning approximately 49 hours prior. NASA will continue to assess weather conditions ahead of the test.

During the current cold weather, engineers have kept Orion powered and have configured its heaters for the colder temperatures. Purges, used to maintain proper environmental conditions for elements of the spacecraft and rocket, including the booster aft skirts, are also configured for the weather.

A 24/7 live stream of the rocket at the launch pad remains online. NASA will provide a separate feed planned to capture wet dress activities. The agency will also provide real-time blog updates regarding the test during fueling.

Source: NASA.Gov

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NASA / Cory S Huston

Getting Hyped Up for Humanity's Return to the Moon...

Earlier today, TIME magazine posted this online image of the cover to its February 9 issue...celebrating the impending launch of NASA's Artemis 2 mission to the Moon. This flight will be the first crewed lunar journey since Apollo 17 in December of 1972, and will take place almost 58 years after the very first astronauts orbited the lunar surface during the Apollo 8 mission in December of 1968.

I definitely can't wait to buy this issue when it arrives at magazine stands early next month! Though if you want to read this issue's article on Artemis 2, you can do so here.

On This Day in 1986: Challenger's Final Crew Is Lost in Flight...

Bruce Weaver / AP

40 Years Ago Today... The seven astronauts of space shuttle Challenger lost their lives 73 seconds into flight on a frigid January day.

59 years ago yesterday, the three astronauts of Apollo 1 perished in a terrible fire during a ground launch rehearsal at Cape Canaveral, Florida.

This Sunday, it will be 23 years since the crew of space shuttle Columbia was lost during re-entry into Earth's atmosphere above Texas.

May all these explorers rest in peace. NASA's official Day of Remembrance was on January 22.


NASA


NASA


NASA

Nation #61 Has Joined NASA's Moon Exploration Initiative...

NASA

NASA Welcomes Oman as Newest Artemis Accords Signatory (News Release)

The Sultanate of Oman signed the Artemis Accords during a ceremony in Muscat attended by NASA on Monday, becoming the 61st nation to commit to responsible space exploration for the benefit of all humanity.

“Oman’s accession to the Artemis Accords sets an important example about the value of responsible behavior and shared pursuit of discovery,” said NASA Administrator Jared Isaacman in recorded remarks during the ceremony. “Oman joins the U.S. and our other partners on ensuring the peaceful exploration of space for generations to come. We are returning humans to the Moon and laying the groundwork for future missions. A community of like-minded nations will be the foundation of our success.”

U.S. Ambassador to the Sultanate of Oman Ana Escrogima and NASA’s Deputy Associate Administrator Casey Swails participated in the event held on the opening day of the Middle East Space Conference, an international forum on space and innovation in the region. Said al-Maawali, Oman’s minister of transportation, communication, and information technology signed on behalf of the country.

In 2020, the United States, led by NASA and the U.S. Department of State, joined with seven other founding nations to establish the Artemis Accords, responding to the growing interest in lunar activities by both governments and private companies.

The accords introduced the first set of practical principles aimed at enhancing the safety, transparency and coordination of civil space exploration on the Moon, Mars and beyond.

Signing the Artemis Accords means to explore peaceably and transparently, to render aid to those in need, to enable access to scientific data that all of humanity can learn from, to ensure activities do not interfere with those of others, to preserve historically-significant sites and artifacts, and to develop best practices for how to conduct space exploration activities for the benefit of all.

More countries are expected to sign the Artemis Accords in the months and years ahead, as NASA continues its work to establish a safe, peaceful and prosperous future in space.

Source: NASA.Gov