Navy E-2D Hawkeye Goes to Japan

The E-2D is significant because it is the lynchpin of the Naval Integrated Fire Control – Counter Air construct that eventually allow every U.S. Navy air or sea-based asset to seamlessly function as a sensor or shooter within a network

The U.S. Navy’s most advanced airborne surveillance aircraft will be permanently deployed to Japan starting in February.

Carrier Airborne Early Warning Squadron (VAW) 125—which flies the potent Northrop Grumman E-2D Advanced Hawkeye—will join the Forward Deployed Naval Forces (FDNF) as part of Carrier Air Wing (CVW) 5 in Japan in February 2017 at Marine Corps Air Station (MCAS) Iwakuni. The squadron will replace the VAW-115, which operates the older E-2C model. VAW-125 will also operate from onboard USS Ronald Reagan (CVN-76) during deployments.

“These moves are in accordance with the Navy’s strategic vision for the rebalance to the Asia-Pacific, a plan to put the most advanced and capable units forward in order to support the United States’ commitment to the defense of Japan and the security and stability of the region,” reads a U.S. Navy statement.

----This Story Originally Appeared in The National Interest----

The addition of the E-2D is significant because it is the lynchpin of the Naval Integrated Fire Control – Counter Air construct that eventually allow every U.S. Navy air or sea-based asset to seamlessly function as a sensor or shooter within a network. As Rear Adm. Mike Manazir described its some time ago [3]—the aircraft is the “central node” of the entire system.

The E-2D is the Navy’s primary means of defending against low-observable cruise missiles, ballistic missiles and enemy aircraft. And, indeed, given the capabilities of its UHF-band radar, the E-2D may be the Navy’s trump card against future Russian and Chinese stealth aircraft.

The E-2D’s Lockheed Martin AN/APY-9 UHF-band radar [4] is the central feature of the Advanced Hawkeye. Both friend and foe alike have touted UHF radars as an effective countermeasure to stealth technology [5]. One early public example of that is a paper prepared by Arend Westra [6] that appeared in the National Defense University’s Joint Forces Quarterly academic journal in the fourth-quarter issue of 2009. “It is the physics of longer wavelength and resonance that enables VHF and UHF radar to detect stealth aircraft,” Westra wrote in his article, titled “Radar vs. Stealth.”

UHF-band radars operate at frequencies between 300MHz and 1GHz, which results in wavelengths that are between ten centimeters and one meter long. Typically, due to the physical characteristics of fighter-sized stealth aircraft, they must be optimized to defeat higher frequencies in the Ka, Ku, X, C and parts of the S-bands [7].

There is a resonance effect that occurs when a feature on an aircraft—such as a tail-fin tip—is less than eight times the size of a particular frequency wavelength. That omnidirectional resonance effect produces a “step change” in an aircraft’s radar cross-section. Effectively, what that means is that small stealth aircraft that do not have the size or weight allowances for two feet or more of radar absorbent material coatings on every surface are forced to make trades as to which frequency bands they are optimized for.

That would include aircraft like the Chengdu J-20, Shenyang J-31, Sukhoi PAK-FA and, indeed, the United States’ own Lockheed Martin F-22 Raptor [8] and tri-service F-35 Joint Strike Fighter. Only very large stealth aircraft without protruding empennage surfaces—like the Northrop Grumman B-2 Spirit or the forthcoming B-21 Raider Long Range Strike Bomber [9]—can meet the requirement for geometrical optics regime scattering. Effectively, that means the E-2D’s AN/APY-9 radar can see stealth aircraft like the J-20 or J-31.

Pentagon and industry officials concede that low-frequency radars operating in the VHF and UHF bands can detect and even track low-observable aircraft—that’s just physics. But conventional wisdom has always held that such systems cannot generate a “weapons-quality” track—or in other words, are unable to guide a missile onto a target. “Poor resolution in angle and range . . . has historically prevented these radars from providing accurate targeting and fire control,” Westra wrote.

However, electronic scanning and new signal processing techniques have mitigated those shortcomings to an extent. And there are other techniques in development, such as linking multiple low-frequency radars via high-speed data links, which might enable those radars to generate weapons-quality tracks. But industry officials say those technologies are not ready for prime time.

Yet it is possible that the U.S. Navy and Lockheed may have already solved the problem. The service openly talks about the E-2D’s role as the central node of its NIFC-CA battle network to defeat enemy air and missile threats. Under the NIFC-CA “From the Air” (FTA) construct, the APY-9 radar would act as a sensor to cue Raytheon AIM-120 AMRAAM [10] air-to-air missiles for Boeing F/A-18E/F Super Hornets fighters via the Link-16 data link.

Moreover, the APY-9 would also act as a sensor to guide Raytheon Standard SM-6 [11] missiles launched from Aegis cruisers and destroyers against targets located beyond the ships’ SPY-1 radars’ horizon via the Cooperative Engagement Capability data link under the NIFC-CA “From the Sea” (FTS) construct. In fact, the Navy has demonstrated live-fire NIFC-CA missile shots using the E-2D’s radar to guide SM-6 [12] missiles against over-the-horizon shots—which by definition means the APY-9 is generating a weapons quality track.

All of that means that the E-2D—paired with F/A-18E/Fs, F-35Cs or an Aegis cruiser—is the perfect weapon to defeat enemy stealth fighters like the J-20 or J-31. Thus, extending the E-2D mission radius and time of station just helps the Advanced Hawkeye become an even more effective weapon.

----This Story Originally Appeared in The National Interest----

Dave Majumdar is the defense editor for The National Interest. You can follow him on Twitter: @davemajumdar [13].

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