TW05 The Nautilus Sanction NEW (11 page)

BOOK: TW05 The Nautilus Sanction NEW
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“Mr. Verne,” said Drakov, “you are a man of imagination to whom science is an avocation. Perhaps you will better understand when I explain to you how this discovery came about. Within a few short years, within your own lifetime, Mr. Verne, the first of two discoveries which will change the world will be made. On the eighth of November, in 1895, at the Julius-Maximilian University of Wurzburg, Professor Wilhelm Konrad Roentgen will discover X rays. He will be experimenting with a glass tube through which he will pass gas and an electric current. He will cover the tube with dark paper and turn on the voltage, sending glowing gas streaming through the tube. In the darkened room, light will not come through, being blocked off by the paper, but Professor Roentgen will observe a small glow coming from a table upon which a plate of barium platinocyanide crystals was kept. Upon turning off his voltage, he will observe this glow die out. Puzzled by this phenomenon, he will continue to experiment until he concludes that some unknown ray was being produced in his glass tube, one capable of passing through the dark paper and causing the fluorescence in the crystals. Not knowing the cause or nature of this phenomenon, he will call it an X ray.

“Further experimentation will lead him to discover these X rays produce an effect upon a photographic plate and that the rays are stopped by bones, but not by flesh. The result will be X ray photography, which will aid in diagnosis and revolutionize medical science. Physicians will be able to see inside the body prior to surgery. A man named Thomas Edison will build a device called an X ray fluoroscope, consisting of an X ray tube and a screen covered with crystals of barium platinocyanide.

Upon striking the screen, the X rays will produce light visible to the naked eye. Any portion of the body placed between the X ray tube and the screen will produce an outline of the bones and organs within.

Unfortunately, it will take time before the hazards of the X ray will be understood.

“Researchers who will repeatedly expose themselves to X rays will sustain severe burns and if this practice is continued, as it shall be, it will result in death. It will be discovered that exposure to X rays over a prolonged period can cause harm to the eyes, loss of hair, ulceration, inhibition of bone growth, sterility and damage to the blood cells. Men will learn that all living tissue can be destroyed if exposed to a sufficient amount of radiation, a term which will be strange to you, but I will endeavor to explain. You may have noticed that everyone aboard this ship wears a small glass cylinder containing a photographic film, something invented after the photographic plate. This device is called a dosimeter. Its purpose is to measure the amount of radiation one is exposed to.”

“You mean there is danger to us now?” said Verne.

“There is no cause for alarm. You will understand more presently. For now, let us return to the discovery of X rays, which will lead to the additional discovery that penetrating rays are also given off by certain crystals of an element known as uranium. In studying this phenomenon, Pierre and Marie Curie will give it a name—radioactivity.

“The Curies will embark upon research in an attempt to isolate the substance in uranium responsible for this phenomenon. In processing uranium ore, they will discover an element called radium. Pierre Curie will die upon being struck by a carriage in the street, but both his wife, Marie, and their daughter, Irene, who will carry on the work, will perish from exposure to radiation.

“Extensive scientific inquiry into the nature of this thing called radiation will establish the nature of a radioactive substance—its atoms are unstable. They disintegrate and become another element. Uranium becomes thorium. Thorium turns to radium. Radium becomes a gas called radon and so forth. This is known as nuclear disintegration and it results in the release of rays, or particles. The amount of time it takes for such a substance to decay in this manner to one half of its initial amount is called one half-life.

Radon has a half-life of approximately four days. Certain types of uranium, on the other hand, can have a half-life of four and one half billion years. The shorter the half-life, the more atoms disintegrate per second.

“I mentioned two significant discoveries. The first will be that an element can be made radioactive.

The second will come with the splitting of the atom. In 1932, an Englishman named Sir James Chadwick will discover a particle called a neutron. In 1934, Irene Curie and her husband, Frederic Joliot, will experiment with polonium and aluminum in their study of neutrons. They will discover that when alpha particles—a type of radiation—released from the polonium strike the aluminum, neutrons will be released, as well as electrons. Further, they will discover that the aluminum will continue to emit electrons for a short while after the polonium has been removed. In other words, they will find that an element which is not ordinarily radioactive can be made so artificially. When they bombard the aluminum with alpha particles, they will transform its atoms into the radioactive element radiophosphorous and this will be the first creation of artificially produced radioactive isotopes. You will find much of this unfamiliar and confusing, Mr. Verne, but there are books in the library we have aboard that explain all this in far greater detail. For our purposes now, I am simplifying as much as possible.

“These neutrons easily penetrate solid substances,” Drakov went on. “In the year 1938, two Germans named Otto Hahn and Fritz Strassmann will bombard uranium with neutrons. They will be astonished to find this experiment produce three light elements named barium, lanthanum and cerium. It will make no sense to them. They will realize these elements could only have come from the uranium, but this transmutation would be against everything known in science. They, will see the evidence before their eyes, but be reluctant to challenge the authority of eminent physicists such as Albert Einstein, Max Planck, Niels Bohr and-Enrico Fermi. They will report their discovery, but refrain from making any conclusions about it, stressing they might have made errors in their observations.

“News of this discovery will cause Bohr and Fermi to realize these men had succeeded in splitting the uranium atom. Nuclear fission. Bohr and Fermi will also realize that nuclear fission might involve a chain reaction, in other words, one split atom of uranium would release two neutrons, which would split two more atoms, releasing four neutrons, splitting four more atoms and releasing eight neutrons and so on, in geometric progression, releasing fabulous amounts of energy in an infinitesimal space of time.

“Albert Einstein will have enabled us to understand all this with a formula which will revolutionize science. In the year 1905, Einstein will make history when he writes the simple equation, E = MC
2
.

Translated, it means energy equals mass multiplied by the square of the speed of light. The neutron, the sub-atomic particle with no electrical charge, strikes a large uranium nucleus, causing it to split. The

‘debris’ of this split is neutrons and lighter nuclei. What is left after the nucleus splits weighs less than the original. The mass which is lost is converted into energy via Einstein’s formula. This debris shatters other nuclei in a self-sustaining process called a chain reaction and all that is required to produce this is a sufficient quantity of uranium, below which this process will not be self-sustaining. This quantity is known as a critical mass.

“On the basis of Einstein’s formula, it can be calculated that one-thirtieth of a gram of water converted into pure energy would yield enough heat to turn a thousand tons of water into steam. A device which facilitates this process is called a nuclear reactor and it is that which drives the
Nautilus.

“A uranium core—fuel rods—can be thought of as the firebox of your coal-fired steam engines.

Nuclear fission produces heat. The steam from the heart of the
Nautilus
is taken to the engine room in two large, insulated pipes leading to four turbines, two turbo-generators and the auxiliary steam line.

Again, I use terms you are unfamiliar with, but it suffices to say that this steam produces the power we require, then enters the condensers, having done its work, and in the form of water is pumped back into the steam generators, where it is heated once again by the pressurized water in what is called the primary loop of the reactor. The water in the primary loop is kept under very great pressure, so it cannot turn to steam. In this manner, we have a propulsion system in which no combustion is required. Coolant pumps circulate the water, drive motors raise and lower the fuel rods, controlling the reactor. The fuel rods will last for several years and when they are depleted, I have ways of getting more. Extreme precautions must be observed to ensure there is no leakage anywhere within the system, for such leakage would not only result in loss of pressure, but in radioactive contamination. That is the reason for the dosimeters, Mr.

Verne, to monitor radioactive exposure.

“Yet, lest you should think this new fire of Prometheus is an inestimable boon to mankind—which it is—atomic energy has its darker side, and you will find that aboard the
Nautilus,
as well. The energy obtained by the fission of any given amount of uranium, released at an uncontrolled rate as an explosive, is millions of times more powerful than dynamite.

“You may have noticed large, round hatches in the deck of the
Nautilus
when you came aboard.

Beneath each is a missile kept in a compartment called a silo. Think of these missiles as being rockets, if you will, of a very advanced nature. Each of these missiles carries fourteen atomic warheads, only one of which would be more than sufficient to level a city the size of Paris. From aboard this submarine, even while submerged, I can fire my missiles at any spot upon the globe. So, as you can see, I have at my command both the benevolent nature of atomic power and its destructive capability, which is the greatest the world has ever seen.”

“You neglected to mention how you came by it,” said Finn.

“Yes,” said Drakov. “In that sense, Mr. Priest was quite correct in his earlier assessment of me. I am a pirate. I stole this vessel.”

“But . . . for what purpose?” Verne said, his voice barely above a whisper.

“I told you, Mr. Verne, I am Fate’s cats-paw. I am but following my destiny. Your three friends here are soldiers from a future time. At some later point, perhaps, you might wish to ask them the nature of their duties and why those duties have become necessary. Oh, I beg your pardon.
Will become
necessary. That which I explained to you just now heralded the dawn of a new age for mankind in the 20th century. The age of atomic power. It enabled mankind to reach farther than ever before, widening the horizons of science. Yet, as ever, mankind’s grasp exceeds its reach. I told you I am a living paradox.

Allow me to explain.

“Mr. Land earlier called me a bastard in his anger and he was quite correct. I am. My father, as it happens, is a man well known to Mr. Priest, Mr. Delaney and Miss Cross. His name is Forrester and he is their commander. As they have traveled to this time, so Colonel Forrester traveled to the time of my mother, where he seduced her and begat me. I am a man who should never have been born, Mr. Verne.

At the time my father impregnated my mother, he himself would not have been born for hundreds of years. An impossibility, you say. Yet, here I am. A man who should not exist, brought into being by Fate to bring about an end to that which cannot exist, but does. There is an order to the universe and in the time from which these three soldiers came, mankind has disturbed that order. It has taken me a great many years, Mr. Verne, for I am far older than you think I am, to understand the purpose behind my existence. I was born to set things right, to restore order to the universe. And you, Mr. Verne, shall see it done. You shall be my Boswell. I could not have asked for a better man. But there is still much remaining to be done, many preparations needing to be made, before I can undertake the task Fate has set before me. You will learn things you have not dreamed of, see wonders beyond even your not inconsiderable imagination. My fate will forever alter yours. You have, indeed, a
voyage extraordinaire
ahead of you.

And now, if you good people will excuse me, I will take leave of your company. I have matters to attend to.”

Drakov rose, followed by Shiro, and left the wardroom.

Verne gulped down some wine. “My head is swimming,” he said. “A power that could level Paris!

Rays, particles, unheard of elements, I must see this library he spoke of!”

“I would be pleased to show it to you, Mr. Verne,” Count Grigori said in French. “Come.” They left together, the author dwarfed by the gargantuan von Kampf.

“How does he fit through the hatchways?” Andre said.

“With a certain amount of difficulty,” Benedetto said, smiling a vulpine grin.

“We know why the others are in this with him,” Finn said to Martingale. “What’s in it for you?”

“I thought he made that clear,” drawled Martingale. “Money.”

“Just money?” Lucas said, wryly.

“There are easier ways of making money than being a soldier,” Martingale said. “I’m sure you know that. But it’s all I know. It’s what I do best. Besides, how many mercenaries can claim to have served in action across the boundaries of time? I wouldn’t trade this for the world, Priest. It’s one hell of a kick.

See you round.”

He got up and sauntered out of the wardroom, carrying a whiskey bottle with him.

“A kick,” said Lucas. He glanced at Benedetto, who sat sipping wine and smoking a cigarette. “You know Drakov’s insane, don’t you?”

Benedetto shrugged. “I am not a judgmental individual. Who is to say what is sanity and what is not?

I prefer to deal in the hard sciences and leave metaphysics to besotted Irish philosophers such as Finn Delaney.” He glanced at Finn and raised his wineglass in a toast.

“You haven’t changed at all, Santos,” said Delaney. “You’re still a pretentious asshole.”

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