Mission: Global Defense
Ballistic missiles have become a serious threat to international security.
Missiles are fast, traveling up to 15,000 mph. They can cover long distances, with the most advanced missiles reaching into space and traveling over the North Pole to hit targets. Because they are expensive and can carry only small payloads, rogue countries are more likely to outfit them with weapons of mass destruction.
Countries must be able to detect a missile launch, track an incoming missile or warhead, and then intercept it.
The United States and its allies have developed several overlapping systems to stop missile attacks. Raytheon plays a major role in almost every one of them.
Raytheon's proven interceptors, radars and space sensors work together to provide protection against ballistic missiles, cruise missiles, aircraft and other threats. We are, quite simply, the most trusted global partner in missile defense.
Raytheon's missile defense solutions make the world a safer place
TRACKING AND DISCRIMINATION
Stopping a missile attack begins with detecting a launch.
Working together, Raytheon systems provide detailed information about a missile’s type, trajectory and possible target. They can also differentiate between a warhead and other objects. They include:
- Space-Tracking and Surveillance System-Demonstrator (STSS-D) satellites carrying Raytheon-built sensors.
- Upgraded Early Warning Radars, building-sized radars based in California, Alaska, the United Kingdom and Greenland.
- Sea-based X-Band Radar (SBX), a nine-story-high radar mounted on a converted oil drilling platform.
- AN/TPY-2 radar, a mobile radar mounted on a semi truck chassis, which provides warning from sites on land. It can also provide tracking information at extreme distances.
- AN/SPY-6(V) Air and Missile Defense Radar, provides greater detection ranges and increased discrimination accuracy compared to the currently deployed radar onboard today’s destroyers.
- Airborne Infrared (ABIR) sensors
The United States and its allies use overlapping layers of long-range, mid-range and short-range interceptors to shoot down missiles and incoming warheads at a variety of altitudes.
- Aegis: This system is carried on warships and as a land-based version in Europe. It fires the Raytheon-built Standard Missile family of interceptors, including:
- The SM-3® interceptor, which releases a small, non-explosive “kill vehicle” that smashes into warheads in space. Raytheon is also developing advanced versions of the SM-3, known as the IB and IIA variants. The IIA is a joint project with Japan.
- The SM-6® interceptor, a multi-mission missile with an active seeker. It can defend against cruise missiles, along with ballistic missiles in the last phase of their flight.
- Ground-based Midcourse Defense: This system uses large, powerful Ground-Based Interceptor missiles launched from underground silos in Alaska and California. The interceptors carry Raytheon’s Exoatmospheric Kill Vehicle, which uses sensors and small thrusters to slam itself into warheads. GBIs can reach targets at the highest point in their arc in space, known as the mid-course phase of flight.
- Terminal High-Altitude Area Defense: The THAAD system is designed to shoot down threats as they descend from outer space into the upper atmosphere. This land-based system includes the Raytheon-built AN/TPY-2 radar, which detects attacks and guides interceptors to their targets.
- Patriot: This lower-tier system is used by 16 countries. The Patriot™ system includes the Guided Enhanced Missile (GEM-T), which carries an explosive charge.
- National Advanced Surface-to-Air Missile System: The NASAMS™ launcher is a short-range air defense system that can fire three different Raytheon missiles: the ESSM® missile, the AMRAAM® air-to-air missile and the AIM-9X® Sidewinder missile.
- Iron Dome: This short-range air defense system uses small missiles to protect against rockets, artillery and mortars. Raytheon is working toward production of a U.S. version of Iron Dome called the SkyHunter missile that could someday defend forward-deployed American forces.
Lessons learned when missile defense technology is put through its paces