The Age of Radiance

Read The Age of Radiance Online

Authors: Craig Nelson

Tags: #Atomic Bomb, #History, #Modern, #Nonfiction, #Retail

BOOK: The Age of Radiance
11.9Mb size Format: txt, pdf, ePub

Thank you for downloading this Scribner eBook.

Join our mailing list and get updates on new releases, deals, bonus content and other great books from Scribner and Simon & Schuster.

or visit us online to sign up at
eBookNews.SimonandSchuster.com

CONTENTS

Epigraph

PART ONE: THE OLD WORLD

1. Radiation: What’s in It for Me?

2. The Astonished Owner of a New and Mysterious Power

3. Rome: November 10, 1938

4. The Mysteries of Budapest

PART TWO: THE NEW WORLD

5. The Birth of Radiance

6. The Secret of All Secrets

7. The First Cry of a Newborn World

8. My God, What Have We Done?

PART THREE: WORLD’S END

9. How Do You Keep a Cold War Cold?

10. A Totally Different Scheme, and It Will Change the Course of History

11. The Origins of Modern Swimwear

12. The Delicate Balance of Terror

PART FOUR: POWER AND CATACLYSM

13. Too Cheap to Meter

14. There Fell a Great Star from Heaven, Burning as It Were a Lamp

15. Hitting a Bullet with a Bullet

16. On the Shores of Fortunate Island

17. Under the Thrall of a Two-Faced God

Photographs

Heartfelt Thanks

About Craig Nelson

Notes

Sources

Photo Credits

Index

For Stuart—You are the best in the world at what you do.

The most beautiful and deepest experience a man can have is the sense of the mysterious. It is the underlying principle of religion as well as of all serious endeavor in art and science. He who never had this experience seems to me, if not dead, then at least blind.

—A
LBERT
E
INSTEIN

Nothing in life is to be feared, it is only to be understood. Now is the time to understand more, so that we fear less.

—M
ARIE
C
URIE

1
Radiation: What’s in It for Me?

Y
ESTERDAY
you dashed your breakfast eggs with dried spices that had been irradiated against bacteria, germination, and spoilage. The secret ingredient in the microwave oven reheating that morning’s to-go coffee was radioactive thorium, first isolated from hearty Scandinavian minerals and named for their tempestuous lord. Your kitchen’s smoke + CO
2
detector then started beeping every thirty seconds since it had to be replaced—its 0.9 micrograms of americium-241 had expired. The Brazil nuts in your cereal, meanwhile, had a thousand times more radium than any other food eaten by modern humans. Your banana’s potassium was radioactive, as was the body of the person you slept next to the night before. All night long you returned the favor, two lovers irradiating each other across snores, dreams, and twitching REM eyes.

Since you live at sea level, you get an annual cosmic-ray shower of thirty millirems (
r
oentgen
e
quivalent
m
an (or
m
ammal), a measure of the cancerous effects of radiant emanations, with one rem meaning .055 percent chance of cancer), but moving to Denver with its increased elevation will double that, while an aviation career equals 1 mrem for every thousand miles soaring at thirty thousand feet. Living in a home of masonry—stone, brick, adobe—doses you with 7 mrems annually, and in a city of buildings made from those same types of earth, 10 mrems, with an extra shot every time you pass through halls of granite, such as New York’s Grand Central Terminal or Washington’s Capitol (which is so vibrant it would fail the Nuclear Regulatory Commission’s licensing conditions for a reactor site).

Visiting the dentist, you are draped in a lead apron but, even so, get another 80 mrems, as you would with a chest X-ray, CAT scan, or nuclear
stress test. There’s uranium in your dental work, added to porcelain for long-lasting whiteness and fluorescence, and if you walk too closely by certain policemen after a dental or medical procedure, you’ll set off their Geiger counters (otherwise engaged in the hunt for mythic dirty bombs). On the way home, you bought a balloon for your daughter, the helium that made it float produced by all-natural, all-organic radioactivity within the planet’s mantle. Your delinquent nephew still smokes, inhaling 12,000 to 16,000 mrem every year from radon isotopes trapped in tobacco’s delicious leaves. As you watch the glittering skyline of New York City on your way home that night, 30 percent of its power draws from a nuclear reactor that, if it suffered a Chernobyl-like failure, would mean the evacuation of 10 million people.

Your family is radioactive; your friends are radioactive; your pets are radioactive; and the earth itself throws off a gaseous froth of radon, 200 mrem for each of us, as uranium and thorium decay within the planet’s restive loam. Your vacation at a health spa includes daily bathing in mineral waters, but doesn’t include the information that hot springs are hot in two senses—the water is heated by rocks burning from those same uranium and thorium emissions, the force that also powers earthquakes to tremor, and volcanoes to erupt. Physicist Paul Preuss:
“What spreads the sea floors and moves the continents? What melts iron in the outer core and enables the Earth’s magnetic field? Heat. Geologists have used temperature measurements from more than 20,000 boreholes around the world to estimate that some 44 terawatts (44 trillion watts) of heat continually flow from Earth’s interior into space. Where does it come from? Radioactive decay of uranium, thorium, and potassium in Earth’s crust and mantle is a principal source.”

Radiation is so organic that in 1972, geologic evidence of fourteen naturally occurring nuclear reactors, 1.5 billion years old, were found in the Oklo mines of Gabon, Central Africa. When groundwater leaked into a radiant vein of pitchblende ore unusually dense with that rare and quick-to-fission isotope uranium-235, the water slowed the energies of the free-range neutrons that make uranium radioactive, until their bouncing around like multiple strikes on a hundred-ball pool table triggered a chain reaction of neutrons splitting nuclei, which creates more free-range neutrons, splitting more nuclei. When the water boiled away, the natural ore reactors shut down . . . until more seeped back in, and they started up all over again.

In real life, though, you are not imperiled by Brazil nuts, bananas, microwave ovens, smoke detectors, going to the dentist, working as a flight attendant, sleeping with a lover, visiting Gabon, or living in Denver. Even with
these daily accumulations, a scientific majority believes that you would need over 10,000 mrem to get any increased cancer risk, and 200,000 for radiation sickness—so only your smoking nephew is in trouble. Though tobacco companies knew as early as 1959 that cigarettes were rife with polonium-210, they kept that fact quiet for over four decades, even after discovering that acid-washing could remove 99 percent of the problem—but deciding that it wasn’t worth the cost—resulting in 138 deaths per 1,000 smokers per twenty-five years. And for those concerned about Denver, even though elevated Colorado gets between two and three times the cosmic-shower radiation of New Jersey, cancer rates in New Jersey are higher than they are in Colorado.

Irrational. Confusing. Conflicted. These are hallmarks of the whole of nuclear history. What was once an era heralded by Curie, Einstein, and Oppenheimer became degraded to
Dr. Strangelove
, $50 billion wasted on Reagan’s failed Star Wars, the 1979 partial meltdown at Three Mile Island, the 1986 explosion at Chernobyl, and the 2011 crisis at Fukushima. We are now living in the twilight of the Atomic Age, the end of both nuclear arsenals and nuclear power, yet, simultaneously, radiation has become so ubiquitous in contemporary life that it is nearly invisible, at once everywhere and unnoticed. It is the source of medical diagnostics from X-rays to PET scans and barium tracers, as well as a significant weapon in vanquishing certain cancers; it powers submarines and aircraft carriers; provides 20 percent of America’s domestic energy (and 80 percent of France’s); is used by anthropologists and forensic scientists to date biological remains, and by farmers to destroy bacteria; it remains a Pentagon mainstay and a weapon held dear by a club of developing nations who see it both as a route to global prestige . . . and the ultimate in defense against that same Pentagon.

At its root, radioactivity is wholly irrational to the human mind, appearing to exist somewhere between the quick and the dead. Uranium, thorium, and their ilk aren’t biological, yet they have half-lives, the amount of time it takes for a radioactive element to lose half of its radiant force, which is followed by a loss of a quarter, then an eighth, then a sixteenth, then a thirty-second, and on and on . . . mathematically immortal. That seemingly “dead” rocks can send out powerful rays without external stimulus is counterintuitive, reminiscent of quicksilver, the half-liquid, half-metal state of room-temperature mercury that so transfixed Isaac Newton, he died, poisoned by it. This fundamental condition is nothing less than magical—matter spontaneously converting itself into energy; atoms flying apart all of their own volition; a process disturbing to our common sense of the world.

Radiation’s powers rise from a simple condition: fat atoms. Uranium, thorium, and their radiant cousins are built from atoms so morbidly obese that they burst the laws of attraction—the fundamental building block of matter—and spit out a little piece of themselves, radiating subatomic alpha particles (two neutrons and two protons); beta particles (electrons); and energy waves of gamma rays (similar to X-rays). Imagine a giant blob of Ping-Pong balls, held together with rubber bands, but there are slightly more balls than the bands have the strength to cohere—fat atoms. Years may pass, but sooner or later, the rubber ties that don’t bind enough will falter, and the blob will spit out a ball. The changes in atomic structure caused by the spit induces alchemy, a transformation into an isotope, or into a different element altogether.

Other books

Hot Seat by Simon Wood
Trust the Saint by Leslie Charteris
Mercy Train by Rae Meadows
Fiancé at Her Fingertips by Kathleen Bacus
A Summer to Remember by Mary Balogh
Death Takes a Holiday by Jennifer Harlow
Brightness Falls by Jay McInerney