The Einstein Papers

CHAPTER 48

As soon as the black Sikorsky helicopter touched down at the marina on Long Island four commandos leapt from the side door and raced toward Taft and Martinez, who were seated in the rental car. Dressed entirely in black and toting black composite assault rifles, the commandos' demeanor was as serious as the situation. They quickly assumed a defensive position around the car, and Taft waited until they were in place before rolling down the window.

"I take it you're our ride," Taft said to the commando nearest the door.

"Our orders are to guard you aboard the helicopter," said the commando. With the board clutched under his arm still wrapped in the wet towel, Taft climbed from the driver's seat. Martinez rose from the passenger seat. Surrounded by the commandos, the pair proceeded to the helicopter. Climbing through the side door, the half-dozen men quickly seated and belted themselves in place. Two minutes later the helicopter was airborne.

As the helicopter banked out over water and began to head south, the copilot turned from his seat and shouted to the rear, "Agent Taft, we have your office on a secure communications link."

The commando nearest Taft reached for a receiver on the bulkhead wall. Punching a button on the phone, he handed the unit to Taft.

"John, what have you got?" boomed the voice of Benson.

"I think I've found the missing link," Taft answered. "At least that's what it appears to be. A series of equations notched into the Windforce's nameplate."

"Don't try to read them over the phone," Benson said. "We can't be positive our transmissions won't be intercepted."

"Okay, boss," Taft noted, "but we may have a problem then."

"What's that?" Benson asked.

"The wood's been underwater for years. As soon as it reached surface air it began to deteriorate."

Martinez, who was seated next to Taft, gripped his arm. "I have an idea," he shouted over the din of the rotor blades.

"Hold on, sir," Taft said to Benson.

"Do you have a notebook or some paper on board?" Martinez shouted to the copilot. Reaching into a stowage area between the seats, the copilot removed a clipboard containing a flight log and handed it back. Clipped to the top was a mechanical pencil.

"If we lay several sheets across the board we can do a tracing," Martinez said to Taft. Taft nodded at Martinez, then spoke into the phone. "I think Larry's figured out a way to copy the equations onto paper."

"Good," Benson said, "also figure out a way to keep the wood wet."

"That I can do," said Taft.

"I'll round up something to keep it wet on the trip to Colorado and meet you when you land at Andrews," Benson said.

"Right," Taft said as he handed the phone back to the commando. Carefully unwrapping the quickly drying towel from the board Taft carefully positioned it on his knees. Taking the paper from Martinez he placed it over the equations and began to scratch the surface with the mechanical pencil. It required three sheets to cover the entire formula.

"How do they look to you?" he said to Martinez once he was finished.

"Not bad," Martinez commented.

Taft turned toward the copilot. "Does anyone have any water on board?" The copilot motioned to the pilot, who shook his head no. "We left as soon as we received the call," the copilot said apologetically.

Taft glanced to the commandos, who also shook their heads in the negative. The helicopter was still seventy miles from Andrews Air Force Base when Taft unbuckled his seat belt, raised himself up, unzipped his pants, and urinated on the towel.

"Damn," Martinez said when he had finished, "I can't take you anywhere." From the time the Air Force received Benson's call until the ESR-99, code-named Dark Star, landed at Andrews Air Force Base outside Washington, D.C., less than an hour had passed. Much of that hour had been used in preparing Dark Star for takeoff. The trip from Edwards Air Force Base in California across the country went smoothly for its pilot and copilot. The pulse engines that powered Dark Star operated without a hitch, and the view of the curvature of the earth from 100,000 feet was spectacular. The pilots' space suits were functioning properly, regulating their body temperature; still, the copilot felt warm as he glanced out the tiny side window at the leading edge of the delta wing. The edge was glowing white-hot as the temperature on the edge of the wing reached nearly 1,000 degrees.

Dark Star was a unique design, borrowing the successful parts of the Stealth programs of the 1970s and eighties and combining them with the latest in artificial-intelligence and computer-aided design. The craft itself resembled a triangle when viewed from above. If viewed from the side a person could make out the flare of the fuselage which grew as you followed the lines to the rear.

Strangely enough, unlike most of the spy reconnaissance aircraft that went before her, which were a black color, the Dark Star was an odd metallic blue. The blue color was not a paint or coating, since nothing would stick to the skin of Dark Star, but rather the actual color of the metal, which was a weird alloy whose molecules were arranged in a man-made weightless environment. Stubby, retractable stabilizer fins extended from the fuselage for low-speed maneuvering, which for Dark Star was anything under Mach 1. Passing 100,000 feet above Cincinnati, Ohio, the pilot radioed the tower at Andrews that they would be landing soon and to please alert security. Five minutes later, right at dusk, just north of Baltimore, a thin trail of white vapor threaded inside what appeared to be smoke rings from a giant's cigar but was in fact the exhaust trail from the Dark Star. The contrail quickly dissipated and the few people on the ground who witnessed it assumed it was some odd weather phenomenon.

" Dark Star on final approach. Is the sweeping complete?" the pilot radioed the tower.

"Affirmative, Dark Star. Once you're on the ground please follow the pair of air police Humvees. They will lead you to your hangar."

"Acknowledge," Dark Star's pilot noted.

The pilot's inquiry about sweeping was important. The pulse engines of Dark Star used tremendous volumes of air, which they sucked into rounded intakes like a vacuum. Any small parts, loose screws, rocks, or cans left on or near the runway had a good chance of being sucked up as Dark Star passed. The intakes were screened, but if something got past the screen it could be catastrophic for the engines, each of which cost $14 million to build.

When Dark Star touched down on the runway night was falling. The air police Humvees were already rolling down the asphalt at nearly sixty miles per hour. Flanking Dark Star, they matched her speed while the pilot engaged the braking system, a series of air jets that burst from the front of the fuselage. The bursts of air scrubbed off speed while also cleaning the runway of any debris.

It was critical that Dark Star get inside a hangar as soon as possible after landing. Although rumors of the plane's existence had circulated, as yet no pictures of the craft had reached the press. Taxiing faster than most planes would attempt, Dark Star followed the Humvees to an open hangar. Leaving the Humvees outside, the Dark Star pilot rolled inside at nearly thirty miles an hour. The pilot engaged the air-stop brakes once the plane was near the center of the hangar. A heavy-steel fifty-five-gallon trash drum was tossed against the side wall and partially flattened. It hung there, pressed against the wall, until Dark Star came to a stop and the pilot released the air brake. Then it crashed to the floor.

The pilot and copilot slid from a small hatch at the bottom of the fuselage just as the head of security, a captain with the air police, raced over.

"I'm sure Edwards gave you orders to have everything removed from the hangar, Captain," the pilot said.

Nearly twenty special air policemen in red berets took up position around Dark Star. Circling the aircraft, they pointed their M-16 rifles outward.

"Yes, Colonel, those were the orders. However, we weren't alerted to your arrival until fifteen minutes ago and it was impossible to get a forklift to move that barrel in time." The colonel nodded.

"Any idea how long we'll be on the ground?" the copilot asked.

"The last I heard, the package is due to arrive" the captain stared at his watch"…in fifteen minutes."

"Good," the pilot said, "that gives me time for a cup of coffee." A large Igloo cooler half-filled with liquid sloshed about on the floor of General Benson's GMC Suburban as he turned the last corner and came to a stop outside the hangar where Dark Star was parked. Turning off the headlights, he switched off the ignition and left the keys in place. Once he had been cleared by the air policemen, Benson removed the cooler from the Suburban and placed it on the ground. Sitting atop the cooler he waited for the helicopter carrying Taft and Martinez to land. With the night pitch black and no moon to light the sky, the pilot of the Sikorsky carrying Taft and Martinez followed a three-ton truck with an airman in the rear bed directing the helicopter with flashlights. The truck stopped next to the hangar containing Dark Star, and the pilot of the Sikorsky touched down there. Taft jumped from the helicopter and raced toward Benson, who was opening the cooler. "Set the board in here," Benson shouted over the noise of the helicopter.

"What's in there?" Taft shouted as the Sikorsky with the commandos aboard noisily took off again.

"Antifreeze and water," Benson said. "Are the tracings safe?"

"Yes, I have them right here," Martinez shouted.

"Good," Benson said, closing the lid of the cooler. "Grab a handle of this cooler and let's take it inside."

At the door of the hangar, Martinez was deemed nonessential by the air policemen and asked to remain outside. Taft and Benson entered the hangar and walked toward Dark Star, carrying the cooler. To the left side of the hangar, the pilot and copilot emerged from inside a small lunch room used by the mechanics.

The pilot stared at the cooler for a second. "What is it, an organ transplant for a VIP?"

"No," Benson said, "it's an old board."

"You're kidding," the copilot muttered.

"But," Taft added, "it's an old board Albert Einstein whittled on." Dark Star lifted off from Andrews within five minutes of loading the cooler aboard. The sixteen-hundred-mile trip to Colorado took Dark Star just over twenty minutes. They landed at the nearest base to Boulder, the Buckley Air National Guard Base in Aurora, Colorado, where the cooler was immediately transported to a U.S. Army Huey helicopter for the rest of the trip to the Advanced Physics Laboratory. Touching down on the grounds of the laboratory, the helicopter pilot handed the cooler to two NIA agents, who carried it inside and handed it to an NIA photographer who was waiting to shoot the wooden board.

Outside the Advanced Physics Laboratory it was twilight. Behind the mountain Boulder nudged up to, the setting sun burned with an orange glow. Crickets began to chirp as night came. The wind died down to a whisper.

Scaramelli and Choi stood off to the side of their laboratory, studying the etchings Benson had faxed to them. Once the photographer had finished his work, the laboratory began to quiet as everyone except Scaramelli and Choi filtered out. When they were alone, Scaramelli lifted the board and rubbed his fingers over the etched symbols. He stared at Choi and smiled. "What do you think, my friend?" he said easily. "Should we see what Dr. Einstein discovered?'

Choi stared at his watch. "We might as well. General Benson called. He's taking a commercial flight here. He arrives in just over six hours on the early-morning flight."

"It would be nice if we had something to show him by then," Scaramelli said.

"That's what I was thinking," Choi agreed.

That morning brought a fierce thunderstorm that blackened the Colorado sky. High in the mountains the storm brought snow, but down in the foothills the storm was mostly wind, intermittent rain, and lightning. The storm blew over the top of the series of rocks outside Boulder known as the Flatirons, then spread out toward the eastern plains. Loud thunder boomed in the distance followed by bolts of lightning that streaked quickly downward to the dry ground like spears from heaven. The light from the natural electrical discharges quickly disappeared into the clouds, then reappeared in seemingly random order.

All at once, the skies opened up and rain and hail began to pelt the ground. Strangely, certain parts of Boulder were bathed in sunshine.

General Earl Benson sat in the director's office of the Advanced Physics Laboratory with Scaramelli and Choi. He stared at the pair in anticipation.

Benson looked slightly haggard. Black rings formed half-circles under his eyes, and his forehead was lined with tension. Even so, he was cleanly shaven and alert, as though he refused to accept the fact he had slept less than three hours in the last twenty-four.

"Tell me what you've found," Benson said without preamble. Scaramelli picked a piece of crust from his eye and flicked it on the floor. "To put it simply, we think we have the key to moving matter instantaneously." Benson immediately saw the possible applications and leaned forward in astonishment. "You need to explain this to me in as simple terms as possible." Scaramelli thought for a second before beginning. "Think of the Apollo missions. The astronauts needed to steer the craft into an exact position with the moon to be sucked in by the moon s gravitational field. Every orb has a gravitational field — and the earth is no different. But what is unusual about the earth is the presence of orbs scattered across the globe, a result of the earth's very formation. Our planet's gravitational field is unique. It is altered by the presence of so much metallic mass below the surface. The presence of metals beneath a planet's surface is unusual, and probably quite uncommon in the universe."

"Go on," Benson said.

"Okay," Scaramelli said. "Now, are you familiar with the ionosphere?"

"Yes, I remember studying it in school. It's a belt of free electrically charged particles in the earths atmosphere from about twenty-five miles to 250 miles out. Once radio waves bounce around in it they can travel around the globe."

"It's often used by our military to send secret communications great distances," Scaramelli noted.

"So we have a spinning ball — the earth — and on that ball we have intense magnetic fields that form into bands encircling the planet. Outside the bands, suspended miles above, is the ionosphere — a band of free electrically charged particles."

"I'm following you so far," Benson said.

"May I?" Choi asked.

Scaramelli nodded.

"Let's say you had a ball bearing on the floor and you turned on a gigantic electromagnet that was mounted on the ceiling," Choi said.

"The ball bearing would be pulled to the ceiling," Benson said.

"Except if the electricity in the ionosphere prevented that," Choi said. 'Then it would be drawn up until the opposing force of electricity exerted a force sufficient to offset the magnetism. If that occurred the ball bearing would hover in place."

"So you balance the forces to suspend the object?" Benson asked.

"We upset the very matter that forms the object. The combination of electricity combined with gravity and magnetism acts upon the strong and weak forces at a subatomic level. The resulting intense vibration separates the matter, so it may be drawn along through space."

"Then it is sucked along the magnetic belts that encircle the earth," Benson said logically, "in the area between earth and the outer edge of the ionosphere."

"Exactly," Scaramelli said.

"How much time does it take to move an object?" Benson asked. "And does the matter rearrange itself in the same form?"

"The speed the object would obtain is unknown," Scaramelli admitted. "Einstein's notes about the curvature of space still have me baffled. However, our preliminary tests indicate that the amount of time that would elapse would be negligible, approaching zero. As to the form of the object, that is what we will test today."

"You already have a test that can prove this?" Benson asked, incredulous.

"Einstein's final notes were the piece of the puzzle we were missing," Scaramelli said.

"It explained the theory beautifully."

"Disrupting the strong and weak forces inside atoms won't result in an explosion, as we first thought?" Benson asked.

"The strong and weak forces in molecules are all around us," Scaramelli noted. "What Einstein's formula finally explained is how to unlock them."

"And how do you unlock them?" Benson asked.

"Seawater," Scaramelli said quietly. "We electrically charge seawater."

"So Einstein discovered an instant, invisible method of time travel," Benson said.

"Beam us up, Scotty," Choi said quietly.

Inside the Advanced Physics Laboratory, Jeff Scaramelli stood next to Li Choi at a control panel. Scaramelli looked at the group that had assembled in the laboratory.

"We're about to begin the test," he said to no one in particular. A television camera had been installed inside the laboratory to beam the test east to the NIA office in Maryland. There, only Taft and Martinez, along with the two technicians who would record the incoming signal on tape, had been authorized by Benson to watch the results.

A separate video feed was directed to the White House. There, National Security Advisor Lakeland sat with the president. Lakeland appeared unemotional, but the president puffed a large cigar until the tip was a glowing red. The president sipped from a cup of coffee and focused his complete attention on the screen. It was time for the big show.

In the northwest comer of the laboratory in Boulder, a bronze bust of Albert Einstein was positioned in a stainless-steel tub filled with seawater. A pair of copper wires led off to a cyclotron. The cyclotron would help propel the particles forming the bust of Einstein by alternating electrical fields in a constant magnetic field. Scaramelli hit the switch on the control panel for the cyclotron, then turned up the current with a rheostat.

The bust began to glow as it was lit by an electromagnetic beam never before produced on earth. As though it was not of this earth, the bust began to shimmer and change into colors previously unknown to man.

Twin wind vortexes shot from the center of the bust. One rose to the ceiling while one descended to the floor, raising a cloud of dust and lint. The two video cameras that were earlier placed in the corners of the lab recorded the effects of the bizarre experiment. As the group watched in amazement, the bust of Einstein became covered with clouds. Small bolts of electrical energy flew in a circular pattern from the bust and dissipated in the air as an unnatural storm was created.

The molecules of the bust unlocked from one another. Infinitesimally small, they became a level of matter up until now unknown. Traveling through the formed particles that made up the solid of the building, they raced through the roof of the laboratory, then up through the atmosphere and into the ionosphere.

There they remained in a suspended state, held in place by the actions of the charged electrical particles of the ionosphere combining with the gravitation of the earth and the naturally occurring magnetic belts encircling the earth. The entire process occurred quickly as the rapt audience watched.

Scaramelli stared at the ceiling, hoping to see the window that would open in the molecules, but it happened so quickly it was past the point of human awareness. To those in the laboratory, the bust simply disappeared from view. It grew darker in the laboratory as the storm outside the laboratory intensified. At the same time the overhead lights dimmed. A bank of computers off to one side of the laboratory shut themselves down.

Scaramelli reached over to the control panel and switched on a powerful electromagnet positioned in the far corner of the laboratory. Almost instantly an intense storm began to ravage the corner. Wind, rain, and lightning spun from the center of the clouds like a bizarre cyclonic weather system run amok. The computers restarted, and then, as if the entire series were a single machine, the monitors grew bright as a flare, then burned out. The air pressure in the room changed.

Benson opened his mouth and yawned, forcing his ears to pop.

After a tense wait of several seconds, Scaramelli clicked the electromagnet off, then carefully walked to the comer of the laboratory. He paused for a few seconds then bent over and lifted a metal blob from the floor. The bust had reappeared, all right, but in several large pieces.

Later, when the scientists weighed the balls of metal taken from the floor, it would be found that not a single atom remained in the ionosphere. Nevertheless, the atoms had not rearranged into their prior form. Scaramelli tossed the ball of bronze into the air, then turned to Benson.

The test had proved to be a failure.

The laboratory grew deadly quiet.

John Taft rose from his chair in the media control room in Bethesda and walked over to one of the technicians. "Kurt," he said casually, "can I talk to Benson at the laboratory over this feed?"

"Sure," the technician said, pointing to a stalk on the control panel. "Just flick that button on the microphone."

As Taft walked over to the microphone he watched the real-time image from the laboratory on the screen in front of the control room. He switched on the microphone and spoke.

"General Benson," he said, "this is Special Agent Taft in Maryland. May I ask Mr. Scaramelli a question?"

Benson looked at Scaramelli, who was bent over picking up pieces of bronze from the floor and hefting them in his hands.

"Might as well, John," Benson said quietly.

"Jeff, this is John Taft in Maryland. I have a question for you." Scaramelli rose slowly and faced the camera. His face was drawn and ashen colored. He appeared stunned that the test had been a failure. A tic had formed in a corner of his left eye and his eyelid fluttered. Taft noticed Scaramelli's knees were shaking as if they might give way at any moment.

"Yeah, John," Scaramelli said haltingly.

"What's with the storm that was created?"

"We think it's a natural reaction of the atmosphere being upset," Scaramelli blurted.

"Would it be safe to say that the bigger the object moved, the bigger would be the storm?"

"I guess so," Scaramelli said.

"This is National Security Advisor Lakeland with the president at the White House," a voice boomed over the television. "Just what are you getting at, Agent Taft?" Taft paused before answering. "If we move enough large objects into the path of the Chinese navy, the resulting storm should slow or stop the assault."

"Interesting idea," Benson said.

"Not only that," Taft said, "it would give Scaramelli and Choi another chance to perfect the use of the theory."

Choi piped into the conversation. "I believe that we are using the theory correctly—

we just need to adjust the amount of electricity and gravity we use." Scaramelli suddenly came to life. He glanced toward the camera, nodding. "That must be it — we just have the settings wrong."

"What objects do you propose we use, Mr. Taft?" the president asked.

"Since you are an old air force man, Mr. President," Taft said, "I think you'll appreciate this, we literally bomb the Chinese with aircraft. We fill the skies with a phantom force."

Lakeland interrupted. "Agent Taft, we don't have a single airplane we can spare. If we did we'd bomb the Chinese as they crossed the Taiwan Strait. The U.S. Air Force must stand ready to defend Taiwan from Chinas air force. In addition, we currently have a sizable number of aircraft stationed in the Middle East that cannot be moved."

"Robert," the president said, "I know Taft. He doesn't offer suggestions lightly. Please let him finish what he was going to say."

"Thanks, Mr. President," Taft said. "I think you'll like this, Mr. Lakeland. The United States has several squadrons of aircraft that we could put into service."

"And where would these phantom aircraft be located?" Lakeland asked.

"Arizona," Taft said easily.

A burst of laughter erupted over the television, then died away. "Are you talking about the planes at Davis-Monthan?" the president said.

"Exactly," Taft said slyly.

Benson looked into the camera, smiled, and nodded. "It just might work, Mr. President."

All were silent as the president thought. "Let's do it," he said seconds later.

"Absolutely, let's do it."

The army helicopter had just passed over Broomfield, Colorado, when Benson placed his hand over his briefcase phone and shouted over the din of the rotor blades across the cabin to Scaramelli.

"Is there anything else you can think of that you might need?"

"No, General, that should do it."

"That's all," Benson shouted into the phone.

Scaramelli scanned the neat rows of houses below. The people who lived below would be going about their daily activities without any notion of the discovery that had just been made. It was an eerie feeling for Scaramelli to have knowledge only a handful of people in the world knew existed. Rather than reassure him or fill him with pride, it made him feel uneasy, as if he were now a target, an unworthy recipient of information beyond his scope.

"What about the storm?" Benson asked.

Scaramelli misunderstood Benson's question. "I'm sure in time, when we have more experience with the formula and the power needed to scramble molecules, the storm can be reduced or even eliminated," Scaramelli said wearily.

"Don't tell me that now," Benson said. "We need a major typhoon out there. You can experiment with working the bugs out after this is all over."

"Don't worry, General Benson. So far that's all we know how to do. You can rest assured that the storm that hits the Taiwan Strait will be bad," Scaramelli said. "Very bad."