The U. S. Space Force is actively seeking cutting-edge technologies to enhance its space-based interceptors, specifically designed to thwart ballistic missiles during their boost phase within the atmosphere. This pursuit is underscored by a recent Small Business Innovation Research solicitation, which outlines the need for high-G propulsion systems, advanced seekers, and low-size, weight, and power interceptors that can be seamlessly integrated into space vehicles.
The desired outcome of this endeavor is to develop interceptors capable of swift detection-to-intercept timelines, thereby bolstering the Space Force's ability to respond to emerging threats. Currently, state-of-the-art interceptors exhibit high performance but are often larger and less optimized for rapid deployment or distributed constellations.
In contrast, the Space Force envisions a new generation of boost-phase interceptors that can engage missiles at altitudes of less than 120 kilometers above the Earth's surface, with intercept times of under 180 seconds. To achieve this ambitious goal, the Space Force is looking for solutions that incorporate advanced features such as dual-pulse or throttleable motors, high-grain solid or hybrid propellants, and thrust vector control.
These interceptors should be capable of fast shutdown and reignition of rocket motors, as well as improved specific impulse for more efficient thrust.
The U.S. Space Force is looking for advanced technologies for space-based interceptors that can intercept ballistic missiles during their boost ...More takeaways: Check here
No comments:
Post a Comment