The aim of all this money is to move technology out of the lab and into mass production, so the service can field its first 50-kilowatt lasers on Stryker armored vehicles<\/a> in 2022, its first truck-launched hypersonics in 2023<\/a>, and truck-mounted lasers in the 100-300 kW class in 2024<\/a>.<\/p>\n The Army wants these technologies so urgently it\u2019s devoted a unique unit to developing them, the Rapid Capabilities & Critical Technologies Office<\/a>. RCCTO\u2019s priority is so high that its director, Lt. Gen. Neil Thurgood<\/a>, told me he speaks to the Amy\u2019s civilian acquisition executive, Bruce Jette<\/a>, and the head of Army Futures Command, Gen. John \u201cMike\u201d Murray<\/a>, \u201cmultiple times a week, sometimes multiple times a day.\u201d As for the Army\u2019s top four leaders \u2013 Sec. Ryan McCarthy<\/a>, Undersec. James McPherson<\/a>, Chief of Staff Gen. James McConville<\/a>, and Vice-Chief Gen. Joseph Martin<\/a> \u2013 Thurgood meets with them \u201cmultiple times throughout the month.\u201d<\/p>\n Why so much urgency and high-level attention?<\/p>\n Strategic Offense, Operational Defense<\/strong><\/p>\n \u201cOur potential adversaries have created the A2\/AD environment,\u201d Thurgood told me in an interview. That\u2019s short for Anti-Access\/Area Denial<\/a>, the Pentagon term of art for the dense layered defenses of long-range weapons \u2013 anti-aircraft, anti-ship, and ground attack \u2013 that Russia, China, and even North Korea and Iran are building to keep US forces at bay<\/a>.<\/p>\n \u201cIn order to move forces into that, you\u2019ve got to create lanes of penetration,\u201d Thurgood said. \u201cHypersonics is a strategic weapon that does that.\u201d<\/p>\n The Army wants hypersonics for precision non-nuclear strikes against high-priority linchpins of the enemy defense, like hardened command posts and anti-aircraft systems. That should rip open seams in the A2\/AD zone through which other forces \u2013 not just Army but Air Force, Marine, and Navy as well \u2013 can advance in what\u2019s called a Joint All Domain Operation<\/a>, much like how Panzers and Stukas led the way for German infantry during the blitzkrieg.<\/p>\n But the US must also protect its own forces from the enemy\u2019s long-range missiles. Today, that\u2019s the role of missile defense systems like Patriot<\/a>, THAAD<\/a>, and Aegis<\/a>. But shooting down a missile with another missile is an expensive proposition. An interceptor that can hit another missile in flight is much more sophisticated and expensive than a missile that can hit a target on the ground: A Patriot costs $3 million, about the same as three Scuds. So a well-resourced attacker like Russia or China can \u201cflood the zone\u201d with cheap offensive missiles until the missile defenders run out of shots.<\/p>\n Hence the attraction of laser weapons, which not only shoot at the speed of light \u2013 making an intercept much easier \u2013 but also can keep shooting as long as they have electrical power. Lasers have their limits, however. Bad weather bothers them more than it does missiles, and their energy output is still too low to defeat most targets, although the Pentagon has an urgent joint effort underway to ramp up power.<\/p>\n At least for the near term, while hypersonics are what the Army is calling strategic fires<\/a>, \u201cdirected energy is much more on that tactical\/operational side,\u201d Thurgood told me. Those are very much for what we would call a point defense or an area defense. Not really at this point do we have lasers that are strategic weapons. My assessment is that technology is still advancing towards that end game.\u201d<\/p>\n Timelines & Transitions<\/strong><\/p>\n The most tactical system, with the lowest power and the earlier fielding date, is the roughly 50-kilowatt weapon being developed to go on the Stryker armored vehicle. This laser goes by the acronym DE-SHORAD, which is mercifully short for Directed Energy \u2013 Maneuver Short-Range Air Defense<\/a>. The Army is already building MSHORAD Strykers that will use guns and missiles to shoot down enemy drones, helicopters, and even low-flying attack jets. But it is eager to add laser weapons to the mix, starting with an initial platoon of four vehicles in 2022.<\/p>\n While 8\u00d78 Stryker can keep up with frontline mechanized forces over rough terrain, it can\u2019t carry a laser large enough to defeat cruise missiles<\/a>. That\u2019s the role of the IFPC High Energy Laser, a roughly 300-kW weapon mounted on a heavy tuck.<\/p>\n As with MSHORAD, there are other versions of IFPC, the Indirect Fire Protection Capability<\/a>, that use more conventional weapons such as missiles. IFPC will hang back behind the front, covering command posts and other crucial targets that aren\u2019t constantly on the move.<\/p>\n \u201cThe DE-MSHORAD is on a Stryker there because they go with the maneuver force,\u201d Thurgood said. \u201cIFPC\u2019s on a truck for fixed and semi-fixed locations.\u201d<\/p>\n Thurgood\u2019s role at RCCTO is to field combat-capable prototypes of these technologies \u2013 an initial platoon or battery of each to prove out the technology, experiment with tactics, and if necessary fight.<\/p>\n As each weapon matures and moves into the field, he explained, his RCCTO will hand it over the Army\u2019s normal acquisition organization, the Program Executive Office for Missiles & Space, led by Maj. Gen. Robert Rash. Rash\u2019s PEO already has a transition team embedded with Thurgood\u2019s RCCTO for each weapon to smooth the handover. If all proceeds as planned, then each weapon will move from RCCTO to the PEO a year after its initial fielding and become a formal Program Of Record:<\/p>\n Show Me the Money<\/strong><\/p>\n If you look at the recently released budget request for 2021, you\u2019ll see funding in the Research, Development, Test, & Evaluation (RDTE) accounts for all these weapons. Most of it falls under Advanced Technology Development and Advanced Component Development & Prototypes: These are levels 3 and 4 respectively on an scale<\/a> from Budget Activity 1, Basic Research, to Budget Activity 7, Operational System Development.<\/p>\n What you<\/em> won\u2019t see is the procurement funding for the PEO to actually start mass-producing hypersonics or lasers once Thurgood hands them over.<\/p>\n \u201cThey\u2019re working on that,\u201d Thurgood told me. \u201cYou\u2019ll probably see that in about \u201922\u201d \u2013 that is, as part of next year\u2019s budget request for fiscal 2022. But before the Army can nail down those numbers, he said, the service\u2019s headquarters staff in the Pentagon has to figure out how many batteries it wants of each, which in turn depends on how the new technology fits into its evolving concepts of future conflict and specific joint war plans.<\/p>\n That said, the RCCTO is laying the groundwork for mass production. The challenge here is that, while there are plenty of private companies building lasers for industrial cutting, and a fair number of defense contractors building booster rockets that can get a hypersonic weapon up to speed, there is<\/em> no industrial base<\/a> to mass-produce hypersonic glide bodies<\/a>, the part of the weapon that actually strikes the target. The technology is too new and its manufacture too challenging.<\/p>\n In fact, the Common Glide Body that both the Army and Navy hypersonic missile<\/a>s will use was developed and is still being built, not by any defense contractor, but by Sandia National Laboratory, a government-owned facility most famous for research on nuclear weapons. Starting last year, the Army has contracted with private-sector companies like Dynetics<\/a> to build facilities for mass production. Those companies now have teams at Sandia learning about the technology from its inventors.<\/p>\n Why not just keep the work in the lab? \u201cLabs are great, they do wonderful work, but they\u2019re not necessarily great producers of multiples of things,\u201d Thurgood said. \u201cWe\u2019ve got to get out of the craftsman lab approach into a commercialized approach. That\u2019s what\u2019s happening right now.\u201d<\/p>\n \u201cThere\u2019s not a single prime doing all this work,\u201d he added. \u201cIt\u2019s actually about four or five major contracts<\/a> and then a bunch of minor contracts.\u201d<\/p>\n In the interests of speed and efficiency, there\u2019s a marked amount of inter-service cooperation underway. The Army manages the contract to build the Common Glide Body \u2013 the most technically challenging piece of the weapon \u2013 and gets reimbursed out of the Navy budget for glide bodies that go the sea service. Conversely, the Navy manages the contract to build the rocket booster or \u201cstack\u201d\u2013 which, while less bleeding-edge, is still literally rocket science \u2013 and gets reimbursed out of the Army budget for boosters that go to the ground force. Each service then customizes its combined glide-body-and-booster to be launched either off trucks or naval vessels.<\/p>\n The Air Force wants to launch its hypersonic missiles off airplanes<\/a>, which is a very different technical problem, and it\u2019s also exploring the most advanced technology \u2013 such as \u201cair-breathing\u201d hypersonic cruise missiles<\/a> that fly under continual thrust like a jet plane, instead of having a rocket booster launch a glide body. So the Air Force has its own separate programs. But all three services come together on a Common Hypersonic Glide Body Board of Directors, which meets at least quarterly \u2013 the most recent time was last week \u2013 with each service taking a turn as chairman \u2013 last week was Thurgood\u2019s turn.<\/p>\n \u201cThe joint coordination has been phenomenal,\u201d he told me. \u201cIn the past, you might have seen we each had our own contract for each of these things. That\u2019s too slow and too expensive.\u201d<\/p>\n So when you look at the $801 million for \u201cLong-Range Hypersonic Weapon\u201d under RDTE Budget Activity 4 in the Army budget request for 2021, that includes funds the service is transferring to the Navy to buy boosters.<\/p>\n But that $801 million in Research & Development isn\u2019t everything the Army is spending on hypersonics. There\u2019s another $30 million in Science & Technology. UPDATE\u00a0<\/strong>Helpful Army budgeteers have pointed out another $20 million or so we missed \u2014 we\u2019ll update this story when we nail down the numbers.\u00a0UPDATE ENDS<\/strong><\/p>\n \u201cWhile we\u2019re doing this, you can\u2019t also walk away from the future, so there\u2019s still S&T work going on,\u201d Thurgood said. After the initial version is fielded, he said, \u201cWhat is block two? What is block three?\u2026.You keep modifying, based on what the threat is doing.\u201d<\/p>\n There\u2019s joint cooperation on high-energy lasers as well, led by Thomas Karr<\/a>, the Pentagon\u2019s assistant director for directed energy. Within the Army budget for 2021, the biggest item by far is $212.3 million under Budget Activity 5 \u2014 System Development & Demonstration (SDD) \u2013 for the Stryker-mounted 50-kW laser, DE M-SHORAD. (That figure isn\u2019t in the budget, but it\u2019s the laser-specific portion of a larger $284.2 million line item for M-SHORAD overall, Army officials explained).<\/p>\n But, as with hypersonics, there are multiple budget lines for lasers at different stages of RDTE, totally another $66 million. To break it down, the \u201921 request asks for $28.2 million in Applied Research (Budget Activity 2), $29.7 million in Advanced Technology Development (BA 3), and $8.1 million in Advanced Component Development & Prototypes (BA 4).<\/p>\n That\u2019s actually less than the total appropriated \u2014 $90 million \u2014 for High Energy Lasers in those three categories in 2020. Why? Because more and more, these technologies are moving up the scale<\/a> from early research to prototyping and, soon, production.<\/p>\n![\"\"](\"https:\/\/www.fie.undef.edu.ar\/ceptm\/wp-content\/uploads\/2020\/03\/IMG_4823-e1582848731127-768x538-1-300x210.jpg\")
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