Wednesday, May 31, 2017

And You Wonder Why Our Military's Not Afraid of Russia & China




Air Force scientists are testing a bolt-on aircraft laser weapon


Air Force scientists are working to arm the B-52 with defensive laser weapons able to incinerate attacking air-to-air or air-to-ground missile attack.

Offensive and defensive laser weapons for Air Force fighter jets and large cargo aircraft have been in development for several years now.

However, the Air Force Research Lab has recently embarked upon a special five-year effort, called the SHIELD program, aimed at creating sufficient on-board power, optics and high-energy lasers able to defend large platforms such as a B-52 bomber, C-130 aircraft or fighter jet.

“You can take out the target if you put the laser on the attacking weapon for a long enough period of time,” Air Force Chief Scientist Greg Zacharias told Scout Warrior in an exclusive interview.

Possibly using an externally-mounted POD with sufficient transportable electrical power, the AFRL is already working on experimental demonstrator weapons able to bolt-on to an aircraft, Zacharias added.

Given that an external POD would add shapes to the fuselage which would make an aircraft likely to be vulnerable to enemy air defense radar systems, the bolt-on defensive laser would not be expected to work on a stealthy platform, he explained.

However, a heavily armed B-52, as a large 1960s-era target, would perhaps best benefit from an ability to defend itself from the air; such a technology would indeed be relevant and potentially useful to the Air Force, as the service is now immersed in a series of high-tech upgrades for the B-52 so that it can continue to serve for decades to come.

Defending a B-52 could becoming increasing important in years to come if some kind of reconfigured B-52 is used as the Pentagon’s emerging Arsenal Plane or “flying bomb truck.”

The B-52 with all its ammunition.

Lasers use intense heat and light energy to incinerate targets without causing a large explosion, and they operate at very high speeds, giving them a near instantaneous ability to destroy fast-moving targets and defend against incoming enemy attacks, senior Air Force leaders explained.

Defensive laser weapons could also be used to jam an attacking missile as well, developers explained.

“You may not want to destroy the incoming missile but rather throw the laser off course — spoof it,” Zacharias said.

Also, synchronizing laser weapons with optics technology from a telescope could increase the precision needed to track and destroy fast moving enemy attacks, he said.

Another method of increasing laser fire power is to bind fiber optic cables together to, for example, turn a 1 Kilowatt laser into a 10-Kilowatt weapon.

“Much of the issue with fiber optic lasers is stability and an effort to make lasers larger,” he explained.

Targeting for the laser could also seek to connect phased array radars and lasers on the same wavelength to further synchronize the weapon.

Laser Weapons for Fighter Jets

Aircraft-launched laser weapons from fighter jets could eventually be engineered for a wide range of potential uses, including air-to-air combat, close air support, counter-UAS(drone), counter-boat, ground attack and even missile defense, officials said.


Low cost is another key advantage of laser weapons, as they can prevent the need for high-cost missiles in many combat scenarios.

Air Force Research Laboratory officials have said they plan to have a program of record for air-fired laser weapons in place by 2023.

Ground testing of a laser weapon called the High Energy Laser, or HEL, has taken place in the last few years at White Sands Missile Range, N.M. The High Energy Laser test is being conducted by the Air Force Directed Energy Directorate, Kirtland AFB, New Mexico.

The first airborne tests are slated to take place by 2021, service officials said.

Air Force leaders have said that the service plans to begin firing laser weapons from larger platforms such as C-17s and C-130s until the technological miniaturization efforts can configure the weapon to fire from fighter jets such as an F-15, F-16 or F-35.

Air Combat Command has commissioned the Self-Protect High Energy Laser Demonstrator Advanced Technology Demonstration which will be focused on developing and integrating a more compact, medium-power laser weapon system onto a fighter-compatible pod for self-defense against ground-to-air and air-to-air weapons, a service statement said.

Air Force Special Operations Command is working with both the Air Force Research Laboratory and the Naval Support Facility Dahlgren to examine placing a laser on an AC-130U gunship to provide an offensive capability.

Another advantage of lasers is an ability to use a much more extended magazine for weapons. Instead of flying with six or seven missiles on or in an aircraft, a directed energy weapon system could fire thousands of shots using a single gallon of jet fuel, Air Force experts said.

Overall, officials throughout the Department of Defense are optimistic about beam weapons and, more generally, directed-energy technologies.

Laser weapons could be used for ballistic missile defense as well. Vice Adm. James Syring, Director of the Missile Defense Agency, said during the 2017 fiscal year budget discussion that “Laser technology maturation is critical for us.”

And the U.S. Navy also has several developmental programs underway to arm their destroyers and cruisers will possess these systems to help ships fend off drones and missiles.

Man-in-the-Loop

As technology progresses, particularly in the realm of autonomous systems, many wonder if a laser-drone weapon will soon have the ability to find, acquire, track and destroy and enemy target using sensors, targeting and weapons delivery systems — without needing any human intervention.

While that technology is fast-developing, if not already here, the Pentagon operates under and established autonomous weapons systems doctrine requiring a “man-in-the-loop” when it comes to decisions about the use of lethal force, Zacharias explained.

“There will always be some connection with human operators at one echelon or another. It may be intermittent, but they will always be part of a team. A lot of that builds on years and years of working automation systems, flight management computers, aircraft and so forth,” he said.

Although some missile systems, such as the Tomahawk and SM-6 missiles, have sensor and seeker technologies enabling them to autonomously, or semi-autonomously guide themselves toward targets — they require some kind of human supervision. In addition, these scenarios are very different that the use of a large airborne platform or mobile ground robot to independently destroy targets.

Read the original article on Scout Warrior. Copyright 2017. Follow Scout Warrior on Twitter.



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Monday, May 29, 2017

Perhaps This is Important?



Mystery of the disappearing star – how N6946-BH1 vanished without a trace
Staff Reporter


International Business TimesMay 26, 2017

Mystery of the disappearing star

 

The star N6946-BH1 in a spiral formation 22 million light years away known as the 'fireworks galaxy', was last seen by Nasa's Hubble Telescope in 2009. By 2015, it wasn't there anymore.

How did a star 25 times the size of our Sun simply wink out of existence? Such large stars often go out with a bang – a supernova – blasting off much of their remaining mass before collapsing to form an incredibly dense black hole.

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But this didn't happen to N6946-BH1, according to a paper published in the Monthly Notices of the Royal Astronomical Society. There was a slight brightening around 2009 where the star expelled its outer layer in a gentle puff, but it wasn't anywhere near bright enough to be a supernova.

The Hubble Telescope and the Spitzer Space Telescope were not able to detect the star when they looked with the same filters at this patch of space in 2015. One theory for what happened to it is that it formed a black hole directly without going through the usual process of a supernova first.

Don't miss: Mystery of the disappearing star – how N6946-BH1 vanished without a trace

"The typical view is that a star can form a black hole only after it goes supernova," said Christopher Kochanek of Ohio State University in a statement.

Although this contradicts current theories of the role of supernovas in forming black holes, it may be much more common than astronomers previously thought.

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"If a star can fall short of a supernova and still make a black hole, that would help to explain why we don't see supernovae from the most massive stars."

As such, the findings could shed light on the origin of supermassive black holes. Up to 30% of massive stars capable of a supernova could instead collapse to become a black hole without an explosion. Astronomers have dubbed this process a "massive fail".


"N6946-BH1 is the only likely failed supernova that we found in the first seven years of our survey. During this period, six normal supernovae have occurred within the galaxies we've been monitoring, suggesting that 10 to 30% of massive stars die as failed supernovae," said Scott Adams, a former Ohio State student.

However, another theory for what happened to the star is that it is in fact still there, shrouded in a cloud of gas. The miniature explosion noted in 2009 could have created a cloud that would hide it from instruments on Earth.

But very little infra-red radiation was seen from the site where the star was. At least some radiation would be expected to seep through if N6946-BH1 was hiding behind a cloud.

Further observation of this region of space with Nasa's Chandra X-ray Observatory could help to elucidate whether the star is really still there or not.






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