by Jeff Edwards
The guy on television was telling everybody to stay in their homes. Don’t panic. Don’t try to run. Harvey shifted his eyes to the traffic jam in the street below his window. It wouldn’t be too hard to follow the television guy’s advice. Even if he could still drive, there wasn’t a prayer of getting out of here before the bombs started to fall.
Of their own accord, Harvey’s eyes pointed themselves toward the drawer of the nightstand beside his bed. There, behind pill bottles, handkerchiefs, and paperback novels, was an old companion: a Navy-issue .45 that had followed him home at the end of the war. He wasn’t supposed to have a gun here; it was against about a dozen of the rules for Vista Del Rio tenants. Harvey had smuggled it in wrapped up in a sweater, because he couldn’t make the staff understand that he needed it for protection.
“We have a security system here,” the Placement Manager had told him. “We have alarms on the doors and windows, and a roving security patrol. You don’t need to worry about burglars, Mr. Calloway. I promise you—you’ll be safe here.”
But the .45 wasn’t for burglars. It was for a different kind of protection. Harvey had promised himself a long time ago that he’d use it the very first day that he couldn’t get to the toilet by himself. A man shouldn’t have to go through life with hoses shoved into his orifices, and plastic bags of slop hanging from the side of his bed. That was something worth protecting yourself from.
Harvey blinked and looked out the window again. Those commie A-bombs should be falling any minute now …
* * *
USS Shiloh (CG-67):
Two armored hatches snapped open on the cruiser’s forward missile deck, revealing the weatherproof fly-through covers that capped the upper ends of two vertical launch missile cells. At the same instant, another pair of hatches snapped open on the ship’s aft missile deck.
Some fraction of a millisecond later, all four of the fly-through covers were blasted into fragments as two pairs of SM-3 missiles rocketed out of their vertical launch cells and roared into the afternoon sky on bright columns of fire.
In the darkened confines of the ship’s Combat Information Center, the Weapons Control Officer keyed the microphone of his communications headset and spoke into the tactical communications net. “TAO—Weapons Control. Four birds away, no apparent casualties. Targeted one-each on the four ballistic inbounds.” The rumble of the departing missiles was still faintly audible as he spoke.
The Tactical Action Officer’s reply came over the net a second later. “TAO, aye. Is there enough time to prep a second flight of birds in case we miss on some of the intercepts?”
The Weapons Control Officer keyed his mike again. “TAO—Weapons Control. That’s a negative. The inbounds are moving at about 14,000 miles an hour. We get one crack at this, sir. By the time we get off a second flight of birds, the inbounds will be outside of our missile engagement envelope.”
The reply was several seconds in coming. “TAO, aye. Let’s hope we don’t miss the first time.”
* * *
SM-3 Missiles:
At about the time the Tactical Action Officer was releasing his mike button, the four missiles were shedding their first stage boosters, and igniting the Dual Thrust Rocket Motors of their second stage engines.
The missiles gained speed and altitude quickly, ejecting their second stage boosters as they were climbing out of the upper stratosphere and into the lower reaches of near-earth space. Three of the SM-3 missiles performed this transition perfectly. The fourth missile did not.
A pre-stressed retaining pin in the mating collar between stages failed to shear under the calculated strain of stage separation. The mating collar did not separate, and the second stage booster did not drop away as it had been designed to do.
The missile’s computer was programmed to detect many types of technical casualties, but this simple mechanical failure had not been anticipated by the weapon’s designers. Unable to sense that the second stage booster was still attached, the missile’s computer transmitted the ignition command to the third stage rocket motor on schedule. The jet of hot expanding exhaust gasses, which should have poured harmlessly into the near vacuum of space, were channeled into the small chamber between the second and third stage motors. Unable to contain the expanding pressure wave, the airframe exploded, spewing streaks of shrapnel and fire into the void of the upper stratosphere.
* * *
USS Shiloh (CG-67):
The Weapons Control Officer read the flashing warning message on his screen, and keyed his microphone. “TAO—Weapons Control. I’m showing a pre-intercept failure on Bird #4.”
“Weapons Control—TAO. I copy your pre-intercept failure on Bird #4. What happened?”
The Weapons Control Officer scanned his readouts for a clue to the cause of the failure. After a few seconds, he keyed his mike again. “TAO—Weapons Control. I have no idea what went wrong, sir. Bird #4 just dropped off the scope.”
“TAO, aye. How long until we find out how our other birds are doing?”
“TAO—Weapons Control. It should be any time now.”
“Weapons Control—TAO. Is there no chance at all that we can get another bird up there to replace #4?
The Weapons Control Officer looked at the converging vectors on his display screen. “TAO—Weapons Control. No chance, sir.”
He released the mike button. “No chance at all.”
* * *
SM-3 Missile #2:
Thirty seconds before impact, the Kinetic Warhead separated from the third stage booster. Unlike the EKVs of the ground-based interceptors, the Mark-142 Kinetic Warhead was equipped with onboard sensors. It detected the target immediately, and used a brief series of pulses from its maneuvering thrusters to improve its angle of approach to the intercept point.
As with the EKVs, the KW’s arrival at the intercept point had to be timed to coincide with the arrival of its target. A millisecond too soon, and the KW would pass through the intercept coordinates ahead of its quarry. A millisecond too late, and the target would blow through the intercept coordinates before the KW arrived. In either case, the Russian warhead would slip past the KW and the intercept attempt would fail. The timing had to be nearly perfect.
It was.
The Soviet-built R-29R reentry vehicle arrived at the calculated intercept point at the exact same instant as the Kinetic Warhead. Several million Newton-meters of additive linear force were spontaneously translated to thermal energy. With a blindingly bright flash that no human eye would ever see, SM-3 missile #2 obliterated its target.
* * *
USS Shiloh (CG-67):
The Weapons Control Officer watched his screen. “TAO—Weapons Control. Splash one!”
Before the Tactical Action Officer could acknowledge the report, the Weapons Control Officer keyed his mike again. “TAO—Weapons Control. Splash two! And splash three! I say again, three hits—three kills.”
A cheer went up in Combat Information Center, and somebody shouted, “Nice shooting, Ensign. Kick ass and take names!”
The Weapons Control Officer nodded absently. He wanted to shout and cheer with the rest of them, but they couldn’t see what he could see. On the tactical display in front of him, the speed vector for the last Russian warhead continued to track across the screen. In a few brief seconds, it disappeared as the hurtling weapon passed out of the Shiloh’s engagement envelope.
It was gone, and he couldn’t do anything to stop it.
* * *
R-29R:
The Russian missile’s last remaining reentry vehicle dropped into the ever-thickening atmosphere of the planet below. Its cone shape and internal weight distribution made the device tail-heavy, giving it a nose-up attitude that oriented the widely rounded base into the axis of fall. The reentry vehicle effectively “backed” into the atmosphere, capitalizing on the principles of blunt body gas flow to carry away much of the fiery heat of reentry. The remaining heat load, though still nearly twice the melting temperature of steel,
was absorbed and ablated by the vehicle’s pyrolytic graphite heat shield, which charred, sublimed, and then burned away in fractional layers.
The design of the heat shield was not Soviet technology, but the product of military espionage. Early in the Cold War, Soviet intelligence agents had copied the blunt body reentry shape from the work of American aeronautical engineers H. Julian Allen and Alfred J. Eggers Jr., and the ablative layering technique from America’s Mercury space program. And now that American technology was screaming back toward the nation of its birth at several times the speed of sound.
The heat shedding was critical to the vehicle’s mission, because—a few centimeters on the other side of the superheated skin—delicate circuits and mechanisms were at work. The conical device streaking toward the earth was not a decoy. It was a 200 kiloton KBS-34 series nuclear warhead, and it was in the process of arming itself for detonation.
* * *
White House, Presidential Emergency Operations Center (Washington, DC):
The red arc on the wall-sized geographic display screen was almost complete now. As President Chandler watched, it flashed and grew a fraction longer.
The firing envelopes of the Army’s Patriot III missile batteries appeared on the screen as green circles. The circles were large; the Patriot system had a good effective range, but there weren’t enough of them to provide adequate coverage. And none of the Patriot batteries intersected the final flight path of the Russian warhead.
As General Gilmore had predicted, the bomb was getting a free ride on the final leg to its target.
* * *
Warhead:
The sequence started slowly, but built in speed as the reaction began to escalate. When the reentry vehicle fell past 50,000 meters, a relay clicked open, channeling electrical power into a ring of high-voltage capacitors that encircled the core of the weapon. With a whine like angry mosquitoes, the capacitors began to charge.
At 10,000 meters, another timed relay clicked open. Near the narrow end of the cone, a pair of electrical solenoids rammed their actuator rods downward, forcing pistons into either end of a pressurized cylinder of tritium gas. The pressure within the cylinder exceeded the failure point of a foil membrane that isolated the cylinder from a connected manifold of stainless steel capillary tubes. The foil membrane ruptured, and the pressurized tritium was forced through the manifold, into the steel tubes, and through them into the spherical void between the primary and secondary stages of the bomb.
At 3,000 meters, the ring of capacitors fired, dumping their stored electrical power into a precisely-constructed network of wires. The length of each wire was known to within a nanometer, and its electrical resistance had been calculated to nine decimal places. The attention to engineering precision paid off. The signals shooting through those wires reached their respective destinations with nearly perfect synchronicity.
Ninety-six electrical initiators fired at the same instant, detonating ninety-six trapezoidal blocks of high explosives surrounding a spherical shell of radioactive plutonium 239. The charges were carefully shaped to focus their destructive force inward, toward the center of the plutonium sphere. It was not an explosion, but an implosion.
Faced with more than a million atmospheres of external pressure, the spherical plutonium shell collapsed inward, toward the envelope of tritium gas and the secondary stage of the bomb. The plutonium, already much denser than lead, was further compressed by the converging shock wave of the implosion.
Tortured beyond the boundaries of elemental stability, the plutonium shifted from its natural process of gradual radioactive decay, to an accelerated state of induced fission. The nuclei of many of the plutonium atoms were crushed or split by the extraordinary mechanical force of the compression wave. The shattered nuclei emitted heat, photons, X radiation, gamma rays, and neutrons. The neutrons were flung out to strike adjacent atoms like randomly fired bullets, shattering previously undamaged plutonium atoms and releasing larger quantities of heat, light, radiation, and still more neutrons.
Through a process known as doubling, the chain reaction escalated. Fifty damaged atoms became a hundred. Then one hundred became two hundred, and two hundred became four hundred. In the space of a few nanoseconds, the chain reaction grew a million times more powerful than the implosion that had triggered it.
Heat, radiation, and mechanical force erupted outward in a thunderous explosion of atomic energy.
But it didn’t stop there. The mechanical force and radiation of the primary stage attacked the secondary core of depleted uranium at the heart of the bomb. Tritium atoms merged with uranium atoms, and the expanding fission reaction was magnified by nuclear fusion.
The fireball and shock wave grew, and everything they touched was obliterated. Every living creature within their hideous circle of effect was instantly incinerated.
And the telltale mushroom cloud, not seen in battle since the annihilation of Nagasaki, climbed toward the blue California sky.
CHAPTER 26
NARITA INTERNATIONAL AIRPORT
CHIBA PREFECTURE, JAPAN
SUNDAY; 03 MARCH
0904 hours (9:04 AM)
TIME ZONE +9 ‘INDIA’
Ann Roark elbowed Sheldon Miggs in the ribs. “Ask somebody, damn it!”
Ann’s eyes were glued to one of the courtesy televisions mounted high up the side of a support column in the airport departure lounge. The television was showing the feed from a Japanese news program. The images on the screen alternated between studio shots of a Japanese anchorman who looked like Ryuichi Sakamoto, and still images and video clips from some kind of breaking news story centered in California. At least it seemed to be California, as a green silhouette map of the state appeared periodically in the graphics window next to the anchorman.
The screen cut from a quick establishing shot of the White House, to archival footage of a nuclear explosion—complete with trademark mushroom cloud, to an overhead helicopter shot of a major traffic pileup on an unidentified freeway, to what looked like rioting and general pandemonium in the streets, and back to the nuclear mushroom cloud.
Something had happened. Something huge. But what was it?
The voiceovers and the on-screen text were all in Japanese, which Ann could not read or speak a word of. She glanced around at the groups of Asian travelers clustered around every visible television. Most of them stood in what appeared to be stunned silence, while a few spoke to their fellows in intense whispers.
The news feed cut back to the Ryuichi Sakamoto lookalike for a few seconds. Then it switched to a still shot of the U.S. Pentagon, jumped to footage of ambulances and paramedics helping injured people, dissolved to a still shot of a city skyline that might have been San Diego, and then returned to the nuclear explosion.
Ann looked over at Sheldon, whose attention was focused entirely on trying to get his cell phone to work.
Ann sighed. “Will you let that damned thing alone? You’re about three thousand miles outside of your cellular provider’s coverage area. You’re not going to get a signal in freaking Japan. Okay?”
Sheldon shook his head. “I upgraded my service plan to include Japan and South Korea. I’ve got a signal. That’s not the problem.” He punched several buttons and put the phone to his ear. “I need to check on my Mom and my dogs, okay?”
Ann looked back to the television screen. The Japanese news station was running a feed from CNN now. A blonde anchorwoman stood in the foreground, speaking into one of those stupidly oversized network microphones. In the distant background, the Pentagon was visible. Ann listened carefully to catch the anchorwoman’s words, but the local station was running the Japanese translation in place of the original English voice track.
A graphic window appeared beside the American news correspondent. A computer animatic of a fiery mushroom cloud blossomed above the CNN logo. The words, “NUCLEAR ATTACK” appeared over the animated image in a red diagonal banner.
Sheldon jabbed the end-call button on his cell
phone. “Damn it. I can’t get through. The phone lines on the West Coast must be overloaded with traffic. Whatever the emergency is, it must be …”
He glanced up at the television screen in time to catch the end of the NUCLEAR ATTACK animation. “Nuclear attack? Where? I mean, who got hit?”
Ann shot him a look. “That’s what I’ve been trying to get you to find out. Now … Will you please freaking ask somebody?”
Sheldon shoved the cell phone into his travel bag. “You’ve got a mouth. Why haven’t you asked somebody?”
Ann rewarded him with another dirty look. “I don’t speak Japanese.”
Sheldon raised an eyebrow. “What am I? Secret Ninja Boy? I don’t speak Japanese either.”
He looked around. “Besides, at least two-thirds of these people speak English. I guarantee it.”
Ann stared at him without speaking. He knew why she hadn’t asked. She couldn’t deal with members of her own culture, let alone a foreign culture. Fifty percent of Sheldon’s job was talking to people so that she didn’t have to.
Sheldon groaned theatrically. “Okay. I’ll go ask somebody.”
He climbed out of his seat and stumped across the room to the closest cluster of locals.
Ann watched him as he struck up a conversation with a thirtyish Japanese couple. They were total strangers, but Sheldon smiled at them almost immediately. His hands flitted about like birds as he talked. His face was alive with interest.
How did he do that? She knew the smile and the interest were genuine. He could walk up to complete strangers in a foreign airport and make an immediate connection. How in the hell did he do that?
Sheldon turned toward Ann. He pointed in her direction, then to himself, and finally to the news story on the television screen. He spoke. The couple responded, and Sheldon spoke some more.
The Japanese man glanced back at Ann, nodded a couple of times, and began using the finger of one hand to trace and retrace something against the palm of his other hand. A curve? It looked like he was drawing and redrawing a curve with his fingertip. Then, he used the fingertip to point to a spot in mid-air, about six inches to the left of his open palm. He poked that spot several times with his fingertip, as though punctuating a sentence with multiple periods.