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The New B-21 Stealth Bomber Could Soon Become Unstoppable

Kris Osborn

B-21 Stealth Bomber,

Moving beyond a ground-based radar with a very large aperture to a much smaller “engagement” radar presents substantial challenges for attackers.

Here's What You Need to Remember: Multi-band or “broadband” stealth, which is designed to elude both lower frequency area “surveillance” radar as well as high-frequency “engagement radar,” puts an emphasis upon radar cross section-reducing tailless designs such as that now envisioned for the B-21.

Despite the loud and fast-growing chorus of analysts, critics and weapons developers who continue to raise the question as to whether stealth technology may slowly be becoming obsolete, some senior weapons developers are citing some ways current and emerging stealth platforms will - for years to come - remain very difficult to destroy.

Russian built S-300 and S-400 air defense weapons, believed by many to be among the best in the world, are able to use digital technology to network “nodes” to one another to pass tracking and targeting data across wide swaths of terrain. New air defenses also use advanced command and control technology to detect aircraft across a much wider spectrum of frequencies than previous systems could. Also, much is being made of Russia’s emerging S-500 system, purported to be even more sophisticated against stealth aircraft.

While there is broad agreement that these newer air defenses do make it harder for stealth platforms to remain fully undetected, there are a variety of reasons why actually destroying a stealth platform - and completing the entire “kill chain” - will remain extremely difficult, if not impossible, to accomplish, according to a former 3-Star Air Force weapons developer.

“Bi-static radar can help detect low observable aircraft. However, to intercept a stealth aircraft requires transfer of detection from a large acquisition radar to a much smaller interceptor radar either on an aircraft or a missile that can track—or maintain continuous “lock-on” of the low observable aircraft. When you transfer track from an acquisition radar to a weapons interceptor necessary to engage at longer ranges than the stealth aircraft can detect and fire at the interceptor, that dramatically reduces the probability of the stealth aircraft being engaged. Detection is not what it is all about, you have an entire kill chain where every element must be successful to intercept and destroy a low-observable aircraft,” Ret. Lt. Gen. David Deptula, Dean of the Mitchell Institute for Aerospace Studies, told Warrior Maven in an interview

Deptula explained that moving beyond a ground-based radar with a very large aperture to a much smaller “engagement” radar presents substantial challenges for attackers.

“Even if a radar can detect, it now has to track, and when it transfers that data to engage it will have to shoot a missile using much smaller radar than that used for detection. Also, fusing of the interceptor weapon can be affected by low observability technology,” Deptula said. “At every level, low observability decreases the probability of successful intercept.”

Nonetheless, Air Force developers are pursuing a new generation of stealth technology with a sense of urgency, in light of rapid global modernization of new Russian and Chinese-built attack systems.

B-21:

Earlier this year, the Air Force finished a substantial technical “critical design review” of its next-generation B-21 Raider bomber, an effort known to be almost entirely secret.

The review, described by Air Force officials as a key step prior to formal construction of the aircraft, assessed design specs, technology plans, computing power and weapons integration for the new bomber – a platform which service developers say will advance stealth technology itself to new, unprecedented dimensions of technological sophistication.

Critical reviews of the emerging B-21 design are essential to engineering a platform able to accommodate the most advanced current and anticipated future stealth properties – which include stealth coating and configuration, radar cross section reduction and heat signature suppression technologies, among other things.

A Mitchell Institute essay – “The Imperative for Stealth,” offers a window of substantial detail into comments from Air Force senior leaders that the B-21 will advance stealth technology such that, according to developers, it will be able to hold “any target at risk, anywhere in the world, anytime.”

“The US is now developing its fourth generation of stealth aircraft. The computational capabilities that were available to design the F-117 and B-2 are dwarfed by the power now available to design teams,” writes the Mitchell Institute essay, by Maj. Gen. Mark Barrett, USAF (Ret.) and Col. Mace Carpenter, USAF (Ret.)

The Evolution of Stealth:

Stealth technology works by engineering an aircraft with external contours and heat signatures designed to elude detection from enemy radar systems. The absence of defined edges, noticeable heat emissions, weapons hanging on pylons or other easily detectable aircraft features, means that radar "pings" can have trouble receiving a return electromagnetic signal allowing them to identify an approaching bomber. Since the speed of light (electricity) is known, and the time of travel of electromagnetic signals can be determined as well, computer algorithms are then able to determine the precise distance of an enemy object.

However, when it comes to stealth aircraft, the return signal may be either non-existent or of an entirely different character than that of an actual aircraft. A stealth aircraft will, for instance, appear in the shape of a bird or insect to enemy radar.

Given the increased threat envelope created by cutting edge air defenses, and the acknowledgement that stealth aircraft are indeed much more vulnerable than when they first emerged, Air Force developers are increasingly viewing stealth capacity as something which includes a variety of key parameters.

This includes not only stealth configuration, IR suppression and radar-evading materials but also other important elements such as electronic warfare “jamming” defenses, operating during adverse weather conditions to lower the acoustic signature and conducting attacks in tandem with other less-stealthy aircraft likely to command attention from enemy air defense systems.

Given these factors, Air Force developers often refer to stealth configuration itself as merely one “arrow” in the quiver of approaches needed to defeat modern air defenses.

“Mixing stealthy aircraft with conventional aircraft, deception, air defense suppression, and electronic jamming will complicate an enemy’s defensive problem set by an order of magnitude,” the paper writes.

The authors of the paper explain that newer stealth technology will attempt to outmatch advanced multi-frequency air defenses must utilize a characteristic known as “broadband stealth.”

Multi-band or “broadband” stealth, which is designed to elude both lower frequency area “surveillance” radar as well as high-frequency “engagement radar,” puts an emphasis upon radar cross section-reducing tailless designs such as that now envisioned for the B-21.

“The B-21 image released by the USAF depicts a design that does not use vertical flight control surfaces like tails. Without vertical surfaces to reflect radar from side aspects, the new bomber will have an RCS (Radar Cross Section) that reduces returns not only from the front and rear but also from the sides, making detection from any angle a challenge,” the Mitchell Institute writes.

Stealth fighter jets, such as the F-22 and F-35, have an entirely different configuration and rely upon some vertical flight control surfaces such as tails and wings. Being more vulnerable to lower frequency surveillance radars due to having a fighter jet configuration, an F-35 or F-22 would depend upon its speed, maneuverability and air-to-air attack systems to fully defend against enemies. Given that fighter jets require tails, wings and other structures necessary to performance, they are naturally inherently less stealthy than a high-altitude bomber.

Newer methods of IR or thermal signature reduction are connected to engine and exhaust placement. Internally configured engines, coupled with exhaust pipes on the top of an aircraft can massively lower the heat emissions from an aircraft, such as the structure of the current B-2 - the authors of the essay say.

“Hot gases from the engine can be further cooled using mixing techniques in the exhaust system,” the paper writes.

Technical progress in the area of advanced computer simulations are providing developers with an unprecedented advantage in designing the new bomber as well.

“Simulations of interactions between designs and various threat radars are now far more accurate and realistic, allowing additional refinement of stealth design solutions before any hardware is actually built or tested,” the essay writes.

The new aircraft will be designed to have global reach, in part by incorporating a large arsenal of long-range weapons. The B-21 is being engineered to carry existing weapons as well as nuclear bombs and emerging and future weapons, Air Force officials explained.

If its arsenal is anything like the B-2, it will like have an ability to drop a range of nuclear weapons, GPS-guided Joint Direct Attack Munitions and possibly even the new Air Force nuclear-armed cruise missile now in development called the LRSO - Long Range Stand Off weapon. It is also conceivable, according to Air Force developers, that the new bomber will one day be armed with yet-to-be seen weapons technology.

Kris Osborn of Warrior Maven previously served at the Pentagon as a Highly Qualified Expert with the Office of the Assistant Secretary of the Army - Acquisition, Logistics& Technology. Osborn has also worked as an anchor and an-air military specialist at national TV networks. He has a Masters Degree in Comparative Literature from Columbia University.

This first appeared in Warrior Maven here last year.

Image: 





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