--- type: entity entity_type: protocol name: SR-1 Freedom parent_org: NASA domain: space-development secondary_domains: [energy] status: active announced: 2026-03-24 launch_date: 2028-12 --- # SR-1 Freedom **Type:** Nuclear Electric Propulsion (NEP) spacecraft **Mission:** Mars transit demonstration **Launch:** December 2028 **Status:** Active development ## Overview SR-1 Freedom is NASA's first nuclear-powered interplanetary spacecraft, announced March 24, 2026 alongside Project Ignition. It repurposes Gateway's Power and Propulsion Element (PPE) as the propulsion system for a nuclear electric spacecraft. ## Technical Architecture **Propulsion:** Nuclear Electric Propulsion (NEP) - Ion thrusters powered by fission reactor - Distinct from Nuclear Thermal Propulsion (NTP) - Uses Gateway PPE (already built) as propulsion module **Mission Profile:** - Launch: December 2028 - Destination: Mars transit demonstration - Objective: Validate NEP for deep-space operations ## Strategic Context SR-1 Freedom represents NASA's pivot to nuclear propulsion for interplanetary missions. The repurposing of Gateway's PPE (following Gateway's cancellation) demonstrates adaptive reuse of existing hardware to accelerate nuclear propulsion development. **NEP vs NTP distinction:** Nuclear Electric Propulsion (ion thrusters + reactor) provides high specific impulse but low thrust, suitable for cargo missions. This is architecturally different from Nuclear Thermal Propulsion (heated propellant) which provides higher thrust for crewed missions. ## Timeline - **2026-03-24** — SR-1 Freedom announced; Gateway PPE repurposed as propulsion module - **2028-12** — Scheduled launch to Mars ## Related Programs - [[project-ignition]] — Lunar surface program announced simultaneously - [[gateway]] — Cancelled program whose PPE module was repurposed ## Sources - Singularity Hub: "NASA Unveils $20B Moon Base Plan and Nuclear Spacecraft for Mars" (March 27, 2026) - NASA.gov: "NASA Unveils Initiatives to Achieve America's National Space Policy" (March 24, 2026)