KENNEDY SPACE CENTER, Fla. - For the first time in more than 50 years, astronauts on a NASA mission are bound to fly around the Moon after successfully completing a key burn of Orion’s main engine.

With the approximately six-minute firing of the spacecraft’s service module engine on Thursday, known as the translunar injection burn, Orion and its crew of NASA astronauts Reid Wiseman, Victor Glover, Christina Koch, and CSA (Canadian Space Agency) astronaut Jeremy Hansen accelerated to break free of Earth’s orbit and began the outbound trajectory toward Earth’s nearest neighbor.

NASA’s SLS (Space Launch System) rocket and Orion spacecraft lifted off from Launch Pad 39B at the agency’s Kennedy Space Center in Florida at 6:35 p.m. EDT on April 1, sending the four astronauts on a planned 10-day test flight around the Moon and back.

After reaching space, Orion deployed its four solar array wings, enabling the spacecraft to receive energy from the Sun, while the crew and engineers on the ground immediately began transitioning the spacecraft from launch to flight operations to start checking out key systems.

About 49 minutes into the test flight, the SLS rocket’s upper stage fired to put Orion into an elliptical orbit around Earth. A second planned burn by the stage propelled Orion, which the crew named 'Integrity,' into a high Earth orbit extending about 46,000 miles above the Earth for about 24 hours of system checkouts. After the burn, Orion separated from the stage, flying free on its own.

The crew then conducted a manual piloting demonstration to test Orion’s handling qualities using the ICPS (interim cryogenic propulsion stage) as a docking target.

At the conclusion of the demonstration, Orion executed an automated departure burn to safely back away from the ICPS, after which the stage performed its own disposal burn and re-entered Earth’s atmosphere over a remote region of the Pacific Ocean.

Prior to its re-entry, four small CubeSats were deployed from SLS rocket’s Orion stage adapter.

Other tasks completed so far include a transition to the Deep Space Network for communications, the crew becoming acclimated to the space environment, completing their first rest periods, performing the first flywheel exercise, restoring the spacecraft’s toilet to normal operations, and configuring the spacecraft for the translunar injection burn.

During a planned lunar flyby on Monday, April 6, the astronauts will take high resolution photographs and provide their own observations of the lunar surface, including areas of the far side of the Moon never seen directly by humans. Although the lunar far side will only be partially illuminated during the flyby, the conditions should create shadows that stretch across the surface, enhancing relief and revealing depth, ridges, slopes, and crater rims that are often difficult to detect under full illumination.

Following a successful lunar flyby, the astronauts will return to Earth and splash down in the Pacific Ocean off the coast of San Diego. As part of a Golden Age of innovation and exploration, NASA will send Artemis astronauts on increasingly challenging missions to explore more of the Moon for scientific discovery, economic benefits, and to build on our foundation for the first crewed missions to Mars.

Source: NASA
Associated URL: https://www.nasa.gov/news-release/nasas-artemis-ii-mission-leaves-earth-orbit-for-flight-around-moon/

EL SEGUNDO, Calif. - The U.S. Space Force’s Space Systems Command has awarded two additional launches under the National Security Space Launch Phase 3 Lane 1 program to enhance national missile tracking capabilities.

Scheduled to begin in the third quarter of fiscal year 2027, the two launches will deploy payloads from Cape Canaveral Space Force Station in Florida and Vandenberg Space Force Base in California under the $178.5 million SDA-4 task order awarded to SpaceX.

The launches will place dozens of Sierra Space-built satellites into orbit as part of a distributed missile tracking system designed for rapid data delivery and resilience. This system is intended to improve detection, tracking, and warning of missile threats across multiple orbits.

Source: United States Space Force
Associated URL: https://www.ssc.spaceforce.mil/Newsroom/Article/4449626/space-systems-command-awards-task-orders-to-launch-missile-tracking-space-vehic

THOUSAND OAKS, CA -- Teledyne Technologies Incorporated has consolidated its various space-related businesses and technology portfolios into a unified division. The company announced the integration ahead of the 2026 Space Symposium, signaling a structural shift in how it manages its aerospace and defense contracts.

The new collective, referred to as Teledyne Space, aims to streamline the company’s diverse offerings in sensing, electronics, and mission-critical components. By aligning these internal business units, the corporation intends to address rising demand for advanced space hardware in the commercial, civil, and national security sectors.

Teledyne has maintained a presence in the industry for several decades, providing hardware for Earth observation, planetary exploration, and communications satellites. The consolidated team is scheduled to demonstrate its technical capabilities at the upcoming industry event in Colorado Springs from April 13 to April 16, 2026.

Technical highlights of the integrated portfolio include space-based imaging detectors, microwave devices, and radiation-tolerant semiconductors. The company also maintains specialized manufacturing facilities designed to produce optoelectronic and photonic technologies capable of functioning in high-radiation environments. These components are used throughout the lifecycle of space missions, from initial launch sequences to long-term on-orbit operations.

This reorganization reflects a broader trend of consolidation among major aerospace suppliers. As the space economy shifts from experimental government projects to high-volume commercial and national security constellations, prime contractors require more efficient supply chains. By integrating its specialized subsidiaries, Teledyne positions itself to compete more effectively for large-scale contracts that require multi-disciplinary hardware solutions, potentially reducing the administrative friction for government agencies and private satellite operators.

Source: Forecast International
Associated URL: www.teledynespace.com