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Sky Masters Page 8


  Force did. It was hard for the Air Force to sell the B-2 as a

  conventional weapons platform-that is, until Elliott spoke up. He wants

  to turn this B-2 into another Megafortress-a flying battleship. The man

  managed to convince the powers-that-be to let him use one for advanced

  testing. "Of course we need a senior project officer with bomber

  experience, experience on EB-series strategic-escort concepts, and

  someone with a warped imagination and a real bulldogtype attitude.

  Naturally, we thought of you." McLanahan was speechless, which made

  Ormack smile even more. Ormack was an Air Force Academy graduate, medium

  height, rapidly graying brown hair, lean and wiry, and although he was a

  command pilot with several thousand hours' flying time in dozens of

  different aircraft, he was more at home in a laboratory, flight

  simulator, or in front of a computer console. All of the young men he

  worked with were either quiet, studious engineers-everyone called them

  "geeks" or "computer weenies"-or they were flashy, cocky, swaggering

  test pilots full of attitude because they had been chosen above 99.99

  percent of the rest of the free world's aviators to work at HAWC.

  McLanahan was neither. He wasn't an Academy grad, not an engineer, not a

  test pilot. What McLanahan was was a six-foot blond with an air of

  understated strength and power; a hardworking, intelligent,

  well-organized, efficient aviator. The eldest son of Irish immigrants,

  McLanahan had been born in New York but raised in Sacramento where he

  attended Air Force ROTC at Cal State and received his commission in

  1973. After navigator training at Mather AFB in Sacramento he was

  assigned to the B-52s of the 320th Bomb Wing there. After uprating to

  radar navigator, he was again assigned to Mather Air Force Base. Along

  the way, McLanahan became the best radar bombardier in the United

  States, a fact demonstrated by long lines of trophies he'd received in

  annual navigation and bombing exercises in his six years as a B-52 crew

  member. His prowess with the forty-year-old bomber, lovingly nicknamed

  the BUFF (for Big Ugly Fat Fucker) or StratoPig, had attracted the

  attention of HAWC's commanding officer, Air Force Lieutenant General

  Brad Elliott, who had brought him to the desert test ranges of Nevada to

  develop a "Megafortress, " a highly modified B-52 used to flight-test

  high-tech weapons and stealth hardware. Through an unlikely but

  terrifying chain of events, McLanahan had taken the Megafortress,

  idiomatically nicknamed the Old Dog, and its ragtag engineer crew into

  the Soviet Union to destroy a renegade ground-based antisatellite laser

  site. Rather than risk discovery of the highly classified and

  politically explosive mission, McLanahan had been strongly encouraged to

  remain at HAWC and, in effect, accept an American high-tech version of

  the Gulag Archipelago. The upside was that it was a chance to work with

  the newest aircraft and weapons in the world. McLanahan had happily

  accepted the position even though it was obvious to all that he had

  little choice. The Old Dog mission, one of the more deadly events that

  ultimately drove the Soviet Union to glasnost, had to be buried

  forever-one way or another. Many successful, career-minded men might

  have resented the isolation, lack of recognition, and de facto

  imprisonment. Not Patrick McLanahan. Because he was not an engineer

  and had very little technical training, his job description for his

  first years at HAWC consisted mainly of answering phones, acting as aide

  and secretary for General Elliott and General Ormack, and rewriting tech

  orders and checklists. But he educated himself in the hard sciences,

  visited the labs and test centers to talk with engineers, begged and

  pleaded for every minute of flying time he could, and, more important,

  performed each given assignment as if it were the free world's most

  vital research project. Whether it was programming checklists into a

  cockpit computer terminal or managing the unit's coffee fund and snack

  bar, Patrick McLanahan did his work efficiently and professionally.

  Things began to change very quickly. The Air Force promoted him to

  Major two years below the zone. He was given an executive officer, then

  a clerk, than an assistant, a staff, and finally his own office complex,

  complete with flight-test crews and dedicated maintenance shops. The

  projects began to change. Instead of being in charge of documentation

  and records, he was heading more concept teams, then more

  contractor-MAJCOM liaison jobs, then more subsystem projects, and

  finally full-weapon systems. Before the ink was dry on his promotion

  papers to Major, he was promoted to Lieutenant Colonel. His "exile" was

  occasionally broken, and the young "fastburner" was frequently "loaned"

  with assignments with other research, development, and government

  agencies, including Border Security Force, Special Operations, and the

  Aerospace Defense Command. Very soon, McLanahan had become a fixture in

  any new project dealing with aviation or aerospace. He was now one of

  the most highly respected program managers in the Department of Defense.

  The mission of the High Technology Aerospace Weapons Center had changed

  as well. With budget cutbacks and greater downsizing in all strategic

  bombardment units, some place had to be designated to keep all these

  inactive aircraft until they might be needed again. Although most were

  sent to the "boneyard, " the Air Force Aerospace Maintenance and

  Restoration Center at Davis-Monthan Air Force Base near Tucson, Arizona,

  to be stored for spare parts or for scrap, a few were secretly sent to

  Dreamland, in the desert of central Nevada, for research and special

  missions. The place was the Strategic Air Reserve Group, commanded by

  General Elliott. SARG took the work of the High Technology Aerospace

  Weapons Center one step furtherlt created an operational unit out of

  exotic research experiments. Whereas the Old Dog became an operational

  mission completely by accident, now other "Old Dogs" were being created

  and held in reserve until needed. The new Old Dogs collected over the

  years now included six B-52 bombers; two B-1 bombers-both original

  A-models; six F-111G fighter-bombers, which were formerly SAC FB-1 11A

  strategic bombers; and the newest arrival, McLanahan's B-2 Black Knight

  bomber. "The other task you've got is ASIS, " Ormack continued. "Air

  Force is finally considering putting a pilot-trained navigatorbombardier

  on board the B-2 instead of the current navigatortrained 'mission

  commander' layout. The cockpit is designed for two pilots; you have to

  redesign it for a weapons system officer and defensive systems operator,

  but retain the dual pilot control capability. You've got a few months,

  no more than four, to get ASIS ready for full-scale production and

  retrofit, including engineering blueprints and work plan." He smiled

  mischievously and added, "The B-2 pilot 'union' is not too happy about

  this, as you might expect. They think ASIS is a bunch of crap, that the

  B-2 is automated enough to not need a navigator, and the B-2 sho
uld keep

  its two pilots. I think our experience with the Old Dog proved

  otherwise." McLanahan laughed. "That's an understatement. Now, what's

  ASIS stand for?"

  "Depends on who you ask, " Ormack said dryly. "Officially Attack Systems

  Integration Station. The flight test pilots and B-2 cadre call it

  something else-in honor of all navigators, of course. "What's that?"

  'Additional shit inside." McLanahan laughed again. "Figures." Slamming

  navigators was common fare in this fighter pilot's Mecca in southern

  Nevada. Still awestruck, he walked toward the huge batwinged bomber

  sitting inside the brilliantly lit hangar. The Black Knight was designed

  specifically to attack multiple, heavily defended, and mobile targets

  around the world with high probability of damage and high probability of

  survival. To fly nearly five thousand miles unrefueled, the B-2 had to

  be huge-it had the same wingspan as a B-52 and almost the same fuel

  capacity, able to carry more than its own weight in jet fuel. In the

  past, building a bomber of that size meant it was a sitting duck for

  enemy defenses-a quarter-to-half-million pounds of steel flying around

  made a very easy target for enemy acquisition and weapons-guidance

  radars. The B-52, first designed in the 1 940s when it was designed to

  fly at extremely high altitudes, eventually had to rely on flying at

  treetop level, electronic jammers and decoys, and plain old

  circumnavigation of enemy threats to evade attack. The B-58 Hustler

  bomber relied on flat-out supersonic speed. The FB111 and B- 1

  strategic bombers utilized speed, a cleaner "stealthier" design,

  advanced electronic countermeasures, and terrain-following radar to help

  themselves penetrate stiff defenses. But, with rapid advances in

  fighter technology, surface-to-air missiles, and early warning and

  tracking radars, even the sleek, deadly B-1 would soon be vulnerable to

  attack. The black monster before Patrick McLanahan was the latest

  answer. The B-2 was still a quarter-million-pound bomber, but most of

  its larger structural surfaces were made of nonmetallic composites that

  reduced or reflected enemy radar energy; reflected energy is dispersed

  in specific narrow beam paths, or lobes, which greatly decreases the

  strength of the reflected energy. It had no vertical flight-control

  surfaces that could act as a radar reflector-viewed on edge, it appeared

  to be nothing more than a dark sliver, like a slender tadpole. Each

  wing was made of two huge pieces of composite material, joined like a

  plastic model-that meant there were no structural ribs to break, no

  rivets attaching the skin to a skeleton, producing an aircraft that was

  as strong at the wingtips as it was at the fuselage. Its four turbofan

  engines were buried within V-shaped wings, which eliminated telltale

  heat emissions, and engine components were cooled with jet fuel itself

  to further reduce heat emissions. Its state-of-the-art navigation

  systems, attack radars, and sensors were so advanced that the B-2 could

  strike targets several miles before the bomber could be detected by

  enemy acquisition radars. The cost of the Black Knight bomber program

  was staggering-a half billion dollars per plane and nearly eighty

  billion dollars for an entire fleet, including research, development,

  and basing. A planned total purchase of one hundred and thirty-two B-2s

  in five years quickly went away, replaced with an extended procurement

  deal that would bring only seventy-five bombers on-line over ten years.

  Even that reduced production rate had been compromised-by April of 1992

  there were only twelve fully operational B-2 in the inventory, including

  the initial three airframes used for testing and evaluation and nine

  more that had been purchased in 1991. The 1992 and 1993 budgets had

  carried only "life-support" funding for the B-2-just enough money to

  keep the program alive while retaining the ability to quickly gear up

  production if the need arose. Because there would only be seventy-five

  B-2s active by the turn of the century, the B-52-slated for replacement

  by the Black Knight-would still be in the active strategic nuclear

  penetrator arsenal well into the twenty-first century. But the B-2,

  despite charges of being a "billion-dollar boon SK operational, was now

  a reality and had proven itself ready to go to war in extensive flight

  testing. The first Black Knight bomber squadronthe 393rd Bomb Squadron

  "Tigers"the same unit that had dropped the atomic bomb on Hiroshima

  during World War Il-had been activated at Whiteman Air Force Base in

  Missouri a few months earlier, and when that happened, it had rendered

  billions of dollars' worth of the enemy's military airdefense hardware

  instantly obsolete. "Got time for a walkaround, sir?" McLanahan asked.

  "You bet, " the young Air Force General replied. Ormack let Patrick

  drink in the sight of the magnificent black bomber before him as Patrick

  stepped toward it for a walkaround "getacquainted" inspection. The B-2

  had no fuselage as on more conventional airplanes; it was as if someone

  had sawed off the wings of a B-52, stuck them together, and put wheels

  on it. For someone like McLanahan, who was accustomed to seeing the

  huge, drooping wings of the mighty B-52, it was amazing to notice that

  the B-2s, which were just as long and easily twice as wide, did not

  droop one inch-the composite structures were pound-forpound stronger

  than steel. The skin was perfectly smooth, with none of the stress

  wrinkles of the B-52, and it had no antennae attached to the hull that

  might act as a radar reflector. The plane's "flying wing" design had no

  vertical flight control surfaces that would create a radar reflector;

  instead, it achieved stability by a series of split flaps / ailerons on

  the wing's trailing edges, called "flaperons, " which would deflect in

  pairs or singularly in response to a triple-redundant laser optic flight

  computer's commands. The unique flaperon flight-control system, plus a

  thrust ejector system that directed engine exhaust across the flaperons

  to increase responsiveness, gave the huge bomber the roll response of a

  small fighter. To prevent any radar image "blooming" when the flaperons

  were deflected in flight-even the small flaperon deflection caused by

  aS-degree turn would increase the radar image size several times-the

  trailing edge of the B-2's wings were staggered in a zigzag pattern,

  which prevented any reflected energy from returning directly back to the

  enemy's radar receiver. Patrick ducked under the pointed nose on his way

  back to the double side-by-side bomb bays, the natural part of such an

  aircraft that would attract any SAC bombardier. The lower part of the

  nose section on either side of the nose gear had large rectangular

  windows protected by thick pads. "Are these the laser and IR windows?"

  Patrick asked Ormack. "You got it, Patrick, " Ormack replied. "Miniature

  laser spotters / target designators and infrared detectors, slaved to

  the navigation system. The emitter windows and the cockpit windows are

  coated with an ultrathin material that allows radar en
ergy to pass

  through the windows but not reflect back outwards, much like a one-way

  mirror. This reduces the radar reflectivity caused by energy bouncing

  off the crew members or equipment inside the plane itself. If allowed

  to reflect back, the radar return from the pilots' helmets alone can

  effectively double the B-2's radar signature."

  "Where's the navigation radar? Is there one on the B-2?"

  "You bet. The Black Knight has an AN/APQ-181 multimode radar mounted

  along the wing leading edges, with ground-mapping, terrain-following,

  targeting, surveillance, and rendezvous modes-we can even add air-to-air

  capability to the system. "Air-to-air on a B-2 bomber?" McLanahan

  whistled. "You're kidding, right?"

  "Not after what we did on the B-52 Old Dog, " Ormack replied. "After our

  work in Dreamland putting antiair missiles on a B-52, I don't think

  there'll ever be another combat aircraft that can't do a dozen different

  jobs, and that includes heavy bombers carrying air-to-air weapons. It

  makes sense-if you can take sixteen to twenty weapons of any kind into

  battle with you, you have the advantage. Besides, the B-2 is no slouch

  of a hot jet any way you look at it-the B-2 bomber has one-one hundredth

  the radar cross-section of an F-15 Eagle Fighter, one-twentieth the RCS

  of an F-23 Wildcat fighter-which means it could engage targets before

  the other guy even knows the B-2 is out there-and at high altitude it

  has the same roll rate and can pull as many Gs as an F-4 Phantom." The

  underside of the B-2 was like a huge dark thunder cloud-it seemed to

  stretch out forever, sucking up every particle of light. Patrick was

  surprised by what he found-two cavernous weapon bays. "It's a hell a

  lot bigger than I thought, General, " he said. "Each bomb bay carries

  one Common Strategic Rotary Launcher filled with eight SRAM short-range

  attack missiles, " Ormack replied. "Sixteen SRAM missiles-it packs

  quite a wallop. Putting B61 or B83 gravity nuclear bombs on board is

  still possible as well, although using standoff-type weapons instead of

  gravity bombs makes the B-2 a much greater threat. The Black Knight can

  only carry four cruise missiles, so there are no plans to include

  AGM-129A cruise missiles although we modified the weapon-delivery