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13 Mar 16. Saudis to get MSE variant of PAC-3 missile. Saudi Arabia has ordered the latest PAC-3 Missile Segment Enhancement (MSE) missile for its Patriot air defence systems, a US Department of Defense contract announcement confirmed on 11 March. It said Lockheed Martin’s Missile and Fire Control division had been awarded a USD73m contract modification “to exercise a Patriot option adding 64 1-pack Missile Segment Enhancement missiles and reducing 64 Cost Reduction Initiative [CRI] missiles”.
Previous US documentation has said Saudi Arabia would get the CRI version of the PAC-3, not the MSE, which is more manoeuvrable and has a longer range. (Source: Defense News Early Bird/IHS Jane’s)
15 Mar 16. Laser Weapons Ready for Use Today, Lockheed Executives Say.
For years, the Pentagon has pursued the dream of directed energy weaponry — laser weapons that could defeat a foe for pennies when compared with the expensive kinetic weapons the department relies on. And for years, the technology proved to be elusive.
But the time has finally come where those weapons are capable of being fielded, according to a trio of Lockheed Martin executives who work on the development of the company’s laser arsenal.
“The technologies now exist,” said Paul Shattuck, company director for Directed Energy Systems. “They can be packaged into a size, weight, power and thermal which can be fit onto relevant tactical platforms, whether it’s a ship, whether it’s a ground vehicle or whether it’s an airborne platform.
“So everything exists today,” he said, “it’s just a question of the desire and when is that going to occur.”
Added Daniel Miller, Senior Fellow for Air Vehicle Science and Systems with Lockheed’s Skunk Works division, “the question is moving from, ‘Do we have the devices?’ to ‘How quickly can we integrate them on the platform?’ The question has changed dramatically on the last decade.”
In essence, it’s no longer a technological problem to make laser weapons work. It’s one of integration at the service level.
Asked flatly if the services came to them tomorrow and asked for a laser weapon in the 30 KW range to be delivered, the two men, along with Robert Afzal, a senior fellow with Laser and Sensor Systems, agreed they could produce a viable weapon for fielding.
That doesn’t mean that giant city-melting lasers are on their way. Right now, the weapons are limited to the 15-30 KW scale; going much further requires figuring out how to deal with atmospheric interference, an issue which becomes more complicated with weapons mounted on airborne systems.
But a 30 KW weapon can still bore a hole through a two inch piece of steel in seconds, said Shattuck, which is enough to disable an incoming rocket or hit the engine of a pickup truck. For the Pentagon, that is particularly key, as it has openly talked about the costs associated with using kinetic weapons to attack small trucks operated by the Islamic State group, commonly known as ISIS or ISIL.
The company has already proven the capabilities of a 30KW weapon with its Athena demonstrator, which last year conducted a series of tests on small unmanned systems from over a mile away. The weapon was able to identify and disable those systems with great accuracy, down to taking out just a leg of a system or blinding its camera.
A number of advancements in recent years have allowed the company to move forward with laser technology, but the biggest one is the movement in fiber-laser technology, which is largely driven from developments in the commercial sector.
The men described the technology as similar to a rack of servers. Once you figure out how to connect them all, you can add more power by adding another server. The same is true for the laser weapons: you add more power slots into the rack and increase its power.
So while the 30 KW weapons