US Laser and Rail Gun Development News

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Navy’s Electromagnetic Railgun Project Progressing
6/15/2017
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The technology behind the Navy’s railgun — an advanced cannon that engineers believe could increase a ship’s firepower at a fraction of the cost of typical munitions — is moving forward.

“Electromagnetic weapons such as railgun will play a critical role in the future of naval warfare by providing greater lethality and greater economy than existing weapons,” said Tom Boucher, the system’s program officer at the Office of Naval Research. The “railgun is capable of launching projectiles at speeds far beyond the capability of conventional gun technology and represents a revolutionary leap in naval gun technology.”

The system — which has been in development for more than a decade — could allow the Navy to defeat incoming missiles, unmanned aerial systems and swarms of attacking boats, he said in an email to National Defense. It could be employed for naval surface fire support, anti-surface warfare and air and missile defense missions.

The railgun uses magnetic fields generated by electricity to accelerate a metal conductor between two rails that then launch a projectile. The system eliminates the need for gun propellant or rockets, allowing additional rounds to be in the ship’s magazine, providing the ability to engage more targets, Boucher said.

“Reducing explosive loads aboard ship — no gun powder, rockets or high explosives — also makes the ship less susceptible to catastrophic battle damage,” he said.

Additionally, the system makes economic sense because the cost per engagement “is a fraction of opposing threat weapons, shifting cost burden to the attacking forces,” he said.

Projectiles are fired at speeds between Mach 5.9 to 7.4, according to a Congressional Research Service report titled, “Navy Lasers, Railgun and Hypervelocity Projectile: Background and Issues for Congress.”

The Navy contracted BAE Systems and General Atomics to each create a prototype railgun system.

“The two industry-built prototypes are designed to fire projectiles at energy levels of 20 to 32 megajoules, which is enough to propel a projectile 50 to 100 nautical miles,” according to the report, which was written by naval analyst Ronald O’Rourke.

Boucher said “significant progress” is being made on the effort.

The current phase of the railgun’s development, which began in 2012, is focused on the systems’ repetition, or “rep-rate” capability, he said. That includes the development of a tactical prototype gun barrel and pulsed power systems that have advanced cooling mechanisms. BAE is working with the Navy on rep-rate barrel design and fabrication and General Atomics is creating the pulsed power system.

BAE’s system is undergoing multi-shot rep-rate operations at Naval Surface Warfare Center Dahlgren, in Virginia. Projectiles will be fired down the Potomac River test range over the next three years, he said.
The system has been tested at Dahlgren’s railgun advanced research facility since November. During that time, the Navy has successfully tested a next-generation 32-megajoule railgun, he noted.

“We are gradually increasing firing rate and energy level, and evaluating and grooming the system as we go,” he said.
ONR plans to conduct tests at five rounds per minute in June, and anticipates that the railgun will perform rep-rate operations at 32-megajoules of energy by the end of the year, Boucher said.

Rep. Rob Wittman, R-Va., chairman of the House Armed Services Committee’s subcommittee on seapower and projection forces, visited the location in February and told National Defense he was pleased with the railgun’s progress.

“The resiliency of the gun, the barrel, the ability for … multiple fire without having to replace the barrel, the projectiles, the pulsed power units, the size of the pulsed power units, the size of the batteries, all those things … are getting smaller [and] are getting more efficient,” he said.

“The key now is to make sure that it goes through its testing regime, make sure we understand what it can do, put it onboard a ship [and] operate it onboard a ship,” he said. “All those things are on track.”

ONR plans to wrap up the science and technology phase of the railgun by 2019. It has been working alongside its transition partner, program executive office integrated warfare systems, and the staff at the office of the chief of naval operations “to chart a path forward for the follow-on development of an integrated railgun system,” Boucher said.

“The results of land-based testing will inform potential future demonstrations [at sea] to reduce risks and inform requirements for a future deployable system, including a timeline to deliver it,” he said. “Although there is no set timeline to deploy this capability, the Navy is pressing forward to get this revolutionary capability to sea as soon as practical.”

Wittman said it is important that the Navy develop technologies such as the railgun as quickly as possible.

“For us, time is a strategic challenge,” he said. “You cannot take 20 years to get a concept operational. You just can’t do that anymore because our adversaries do it much more quickly than we do.”

Chief of Naval Operations Adm. John Richardson has put a premium on speed, he added.

“I like what the Navy is doing,” he said. Instead of waiting for the perfect solution, it is trying to get technology onboard ships as fast as possible. The service is making strides in other emerging technologies such as a directed energy weapons, such as with the famed laser weapon system on the USS Ponce, he noted.

BAE Systems continues to test its prototype at NSWC Dahlgren, said Amir Chaboki, director of advanced weapon systems at the company.

The technology associated with the railgun has continued to mature over the past decade, he said.
“The work of our team here at BAE Systems has moved at a very rapid pace, and it’s laying the foundation for the development of a tactical, operational” system, he said in an email.

The railgun is making progress from its initial single shot and low-muzzle energy performance, toward a firing rate of 10 rounds per minute at full 32 megajoules muzzle energy, he said.

BAE has focused its work on the launcher technology and on the design and development of the integrated launch package, he noted.

“These subsystems are progressing well in terms of technological maturity — from laboratory and field testing toward the steps required for the gun to become an operational tactical system,” he said.

BAE has overcome the key technological challenges for the railgun, Chaboki said. The company is now prioritizing engineering and material improvements and validation.

“We’ve made — and continue to make — considerable progress on the size, weight and power challenges associated with the railgun,” he added.

Scott Forney, president of General Atomics Electromagnetic Systems, said the company is finalizing the fourth-generation of its pulsed power system, which it will deliver to the Navy.

The company has also independently developed a more advanced cannon than the one it delivered to the service in 2012, called the multi-mission medium-range railgun, he said.

The system is smaller than previous iterations of the railgun, he noted. The company plans to test the cannon in the next few months at Dugway Proving Ground, Utah, with Army and Navy officials in attendance.

By the fourth quarter of this year, the company intends to hit a stationary target with its command guidance and by the end of the year or early next year, it expects to hit a surrogate cruise missile that General Atomics is developing, Forney said.

The company has been testing components of the system for the past three years, he noted.

“We have a smaller first-generation railgun, which is our workhorse, and we’ve done about 175 shots off that gun qualifying each of the electronic components,” he said.

The company has been using the 3-megajoule system to finesse the design of the multi-mission medium-range railgun, he noted. It has been tested at a facility in Utah where it faced harsh conditions of -10 degrees Fahrenheit to 105 degrees Fahrenheit and winds of 50 mph, Forney noted.

General Atomics invested its own dollars in the system, he said. “We’ve spent a lot of money over the last several years making sure that we could go as fast as we can, and we wanted to make sure that this gun … fits on an Army platform … [and is] small enough to fit on the littoral combat ship.”

Forney said the system could be outfitted on the Army’s heavy expanded mobility tactical truck.
The company will first test the new railgun using non-aerodynamic rounds, he said.

“We [will] slowly increase our current and voltage to get to the final conditions,” he added.
Forney expected testing to last about nine months.

General Atomics’ railgun could also be used for cruise missile defense, he said. The company hopes the Army or Navy will soon test the technology on a vehicle or ship after it proves itself in Utah, he noted.
 
according to DefenseNews US Army tests laser on Apache helicopter
The U.S. Army and Raytheon have completed a flight test of a high-energy laser system on an AH-64 Apache attack helicopter that was deemed successful, according to a Raytheon statement Monday.

The recent test at White Sands Missile Range, New Mexico, “marks the first time that a fully integrated laser system successfully engaged and fired on a target from a rotary-wing aircraft over a wide variety of flight regimes, altitudes and air speeds,” the company said.

Raytheon said the test achieved all primary and secondary goals that show a high-energy laser, or HEL, on an attack helicopter can provide high-resolution, multiband targeting sensor performance and beam propagation.

For the test, Raytheon coupled a variant of the Multi-Spectral Targeting System — an advanced electro-optical infrared sensor — with a laser, according to the statement. The MTS provides targeting information, situational awareness and beam control.

The laser tracked and directed energy on “a number” of targets, Raytheon added.

The testing, according to the company, will also guide the future design of HEL systems from data collected related to vibration, dust and rotor downwash on laser beam control and steering.

"This data collection shows we're on the right track. By combining combat proven sensors, like the MTS, with multiple laser technologies, we can bring this capability to the battlefield sooner rather than later,” Art Morrish, vice president of Advanced Concept and Technologies for Raytheon Space and Airborne Systems, said in the statement.

Testing lasers on Apaches has been in the works for some time. U.S. Special Operations Command announced a year ago that it planned to test a laser weapon on an Apache.

Laser development across the Defense Department has kicked into high gear over the past several years as it seeks cheaper solutions to go up against threat targets rather than using expensive missiles. Putting a laser on an Apache that can take out targets would also increase the number of targets an Apache can take out in one mission. Currently, an Apache can hold 16 Hellfire missiles.
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Navy to test-fire laser across Chesapeake Bay
oh really?
If you see a green laser beam shooting across the water near Baltimore on Tuesday night, don't panic — it’s just a test being run by the military.

Navy scientists will be test firing a long-range laser that will span 13 miles across the Chesapeake Bay late Tuesday, according to a story by the
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. Navy officials have not commented on what the laser's purpose is, though they did say that it will be safe to the human eye.

The Navy also said that the laser will be turned off if a plane or boat comes too close, according to the Sun's story.

"The eye-safe green laser will be transmitted across the Chesapeake Bay to evaluate the performance of a laser system at long range over water," Steven Van Der Werff, spokesman for the U.S. Naval Research Laboratory, told the Sun.

The beam will travel 13 miles from a naval research facility on Tilghman Island to the Chesapeake Bay Detachment in Calvert County. The detachment specializes in radar research, electronic warfare and communications, according to its website.

The Navy announced earlier this year that it will be testing a 150-kilowatt laser weapon at some point in 2017, but Der Werff told the Sun that this is a different type of laser. The Defense Department has been emphasizing guided-energy weaponry studies for the past several years. "It’s not a hope. This is what we are doing. I view it as vitally important for the future,” said Missile Defense Agency Director Vice Adm. James Syring in August.

Tuesday's test is expected to conclude at 10:45 p.m.
source is NavyTimes
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according to DefenseTech The Navy’s Railgun Will Get Faster, More Powerful This Summer
The
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futuristic electromagnetic railgun is set to take a major developmental step forward this summer as developers work to increase the number of shots it can fire per minute and the power behind the system.

The railgun has been a pet project for the Navy for more than a decade since early testing of a prototype for a shipboard system began in 2006. The gun uses electromagnetic force to launch projectiles at high speeds, allowing the system to function without the powder mechanism conventional shipboard guns.

In theory, a railgun would be safer and potentially cheaper to fire than traditional weapons. Navy plans have called for installing the railgun on the Navy’s three DDG-1000
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destroyers, but it’s not clear when that will happen.

For now, officials with the Office of Naval Research are working to build the program up to its target capability envelope.

This summer and into next year, work will focus on increasing the power with which projectiles are fired to the target of 32 megajoules, and increasing what’s known as the rep rate to 10 shots per minute, or one every six seconds, said Dr. Tom Beutner, head of Naval Air Warfare and Weapons for ONR.

At 32 megajoules, the gun will have a range of about 110 nautical miles, Beutner told reporters at ONR’s Science and Technology Expo in Washington, D.C., on Thursday.

Engineers will bring a new composite launcher designed to support the increased power and rep rate to Naval Support Facility Dahlgren, Virginia’s Terminal Range, where railgun prototypes are already being fired using a demonstration barrel.

“We expect that both … milestones will be achieved over the next year,” Beutner said of the planned rep rate and power increases.

The system still has crucial issues that need to be resolved. The system sustains significant wear-and-tear when it’s fired because of the power behind the projectile, leading to worries that the gun will break down too fast. Beutner said that parts of the system are being developed for longevity.

“They’ve extended the launcher core life from tens of shots’ core life when program started to something that’s now been fired over 400 times and … we anticipate barrels will be able to do over 1,000 shots,” he said.

Another key issue is power.

The system requires massive amounts of it — so much that only the
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can independently sustain the demand. Beutner noted that the challenge applied to other weapons as well: when the
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aboard the amphibious transport ship Ponce this month, testers took their own power sources with them to simplify the challenge.

“ONR is starting to look at that … what that future ship power system needs to be in order to power, not just railgun, but a variety of electromagnetic weapons,” he said. ” … Power generation and storage approaches are all part of what we’re researching as well.”
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32 megajoules, 110 nm range and 10 shots per minute (every six seconds) with a 1000 shot barrel.

That's getting into the area where it makes great sense to deploy to sea IMHO.

Soon...soon.
me reservations LOL before I forget myself Feb 2, 2017
just my loose thoughts:

...


  • at the longest range: it's not easy for me to imagine shooting, at M7 or so,
    a metal rod almost 200 km up to the space :) so that it hits, at M5 or so,
    more than 400 km at some compound around which Ospreys then arrive, but it's
    an interesting idea;
  • at the shortest range, I don't know how a railgun is supposed to work in its CIWS role:
    would it shoot projectiles with a fragmentation warhead? or perhaps take advantage
    of its projectile's speed to slam it into an incoming missile?? (dubious considering evasive
    maneuvers but I won't delete it :) plus the advantage would be decisive only against subsonic missiles, I guess)
  • at the mid range (100 or so km), I'm completely at loss while thinking about anti-shipping fire:
    the railgun fire would need to be corrected, I guess by observing the splashes, by
    a drone with an EOTS or something, flying over the horizon, but if you're still with me,
    you can tell me why they wouldn't just shoot an AShM instead and did a mid-course
    correction since supposedly there would the drone in place, communicating??
now lasers (the article is dated 24 August, 2017):
Northrop growing Global Hawk for MDA laser aircraft
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Northrop Grumman plans to modernise its Global Hawk unmanned air vehicle in order to meet the requirements for the US Missile Defense Agency’s (MDA) proposed high-altitude, long-endurance (HALE) effort, a programme that would stretch the RQ-4 beyond its current capabilities.

The MDA is calling for a HALE UAV equipped with a high-energy laser that could destroy an intercontinental ballistic missile in the boost phase, according to a June request for information posted on the Federal Business Opportunities website.

The HALE programme requires a minimum altitude of 63,000ft and a payload capacity between 5,000-12,500lb (2,270-5,670kg). Today’s Global Hawk can reach 60,000ft and can carry a 3,000lb payload, according to US Air Force specifications. Northrop officials acknowledge the 3,000lb limit but have also said the current configuration could reach a maximum payload of 4,000lb.

Northrop is looking at opportunities to work with both the USAF and MDA to reduce the RQ-4’s weight and bridge the altitude gap, Mike Lyons, Northrop's Global Hawk business development lead tells FlightGlobal. The company responded to the agency's request for information last week.

“The MDA [request] goes well beyond what we’ve looked at in the past,” Lyons says. “So we’ve tried to develop a modernisation path for Global Hawk that affordably gets them to meet their minimum requirements and then a growth path to meet their long-term requirements.”

Northrop is not pursuing exotic solutions to save weight on the RQ-4, but rather commercial developments that could shrink the aircraft, Lyons says. Global Hawk will not be redesigned for the HALE mission, but Northrop will remove some heavy equipment that has remained on the platform since its development in the late 1990s.

Northrop is touting its in-house laser experience from the USAF’s airborne laser testbed, but that programme’s hefty chemical laser payload aboard a Boeing 747 hindered its ultimate success. Lyons maintains that part of the Global Hawk’s expansion will help meet the payload and increased power generation requirements.

“We know we’ll be able to integrate it because of all the experience we have with other payloads now that are extremely vibration-sensitive,” he says. “We’ve done this very recently, highly successfully.”

The HALE programme follows the MDA’s current low-power laser demonstrator effort, which would establish stability at long range and the ability to dwell on a single spot on a target. A low-power flight test is slated for 2020 with beam stability evaluations following in 2021. The MDA hopes to field HALE around 2023.

The Air Force Research Laboratory has addressed beam steering and stability as a primary challenge for future airborne laser programmes. Lyons likened the stability issue to Northrop’s own testing with the MS-177 sensor, Senior Year Electro-Optical Reconnaissance System-2 (SYERS-2) and Optical Bar Camera aboard the RQ-4.

“All three are extremely-vibration sensitive,” he says. “Our pointing accuracy, that validated that it was exceptionally good… it’s right in the center of gravity and it maintains very low vibrations.”
 

SamuraiBlue

Captain
me reservations LOL before I forget myself Feb 2, 2017

Like artillery you have different length of the barrel for different purposes.
Longer the rails (without necessarily increasing electric power) the long you can accelerate the projectile so for shooting ballistic missiles you need longer rails.
On the other hand you can fire smaller caliber projectiles with lower power input so the rails can endure more rounds within a given time.

At the mid-range it would be the current model with precision-guided munition that can be programed to hit a coordinate through either GPS or laser guidance.
 

Jeff Head

General
Registered Member
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