-Caveat Lector-

http://www.washingtonpost.com/wp-srv/style/longterm/books/chap1/plutoniumfil
es.htm

The Plutonium Files: America's Secret Medical Experiments in the Cold War
By Eileen Welsome
Dial Press. 576 pp. $18.87
Friday, November 19, 1999

Chapter One: The Acid Taste of Plutonium


The accident occurred on August 1, 1944, a morning like any other in Los
Alamos: hot, dry, the sky an indigo bowl over the sprawl of wooden buildings
and barbed-wire fences that constituted the core of the Manhattan Project.
At seven thousand feet, the New Mexico air smelled of sun, pines, a trace of
frost. Occasionally the scent of dust spiraled up from the desert, where
temperatures hovered around 100 degrees.

In twelve months, two atomic bombs would be dropped on Japan, and the secret
work being carried out in the wooden buildings would be revealed to the
world. On the morning of the accident, the atomic bomb had progressed far
beyond mathematical theories but was still an unproven weapon. Plutonium, a
silvery metal discovered about four years earlier, was one of the key
elements that would transform the theories into a fireball.

In Room D-119, a cheerful young chemist named Don Mastick was standing over
a sink chatting with his laboratory partner, Arthur Wahl, a chemist not much
older than himself and one of the four scientists from the University of
California at Berkeley who had discovered plutonium. Mastick was just
twenty-three years old, a "bushy-tailed kid," as he would later describe
himself, with short blond hair and an alert, friendly face. He had been one
of Berkeley's most promising chemistry graduates and was just about to
enlist in the Navy when J. Robert Oppenheimer approached him and asked if he
would like to join the scientific team being assembled in Los Alamos, the
most secret site in the vast network of laboratories and factories
established to build the bomb.

Oppenheimer, a brilliant theoretical physicist, was already a legend on the
Berkeley campus, and Mastick was thrilled at the idea of working with him.
When he arrived in Los Alamos in the spring of 1943, Oppenheimer had
designated him the lab's ultra microchemist. Working with amounts of
plutonium that were too small to be seen with the naked eye, he studied the
chemical reactions of the new material under a microscope. His glass test
tubes were no bigger than sewing needles and his measuring instruments
looked like a child's toys. Even his laboratory was small: a claustrophobic
box at the end of a hallway, ten feet wide and twelve feet long.

In Mastick's hand that day was a small vial containing ten milligrams of
plutonium—an amount so small it would have fit on the head of a pin. But it
was far more plutonium than Los Alamos had had to work with only a year
before. In fact, the radioactive material was still so scarce that a special
crew had been assembled whose only job was to recover the material from
accidents and completed experiments and then repurify it through chemical
processes so it could be used again. The crew developed a flow chart to help
separate plutonium from every other element in the Periodic Table. "They
were prepared to tear up the floor and extract the plutonium, if necessary.
They would even dissolve a bicycle. I mean, plutonium [was] so valuable that
they went to great extremes to recover everything," physician Louis
Hempelmann recalled decades later.

Inevitably some of the radioactive molecules seeped out into the laboratory,
spread by a starched sleeve, the scuff of boots, even the dust that blew in
from the desert. Nervous and preoccupied with their efforts to construct a
workable bomb, Oppenheimer and his colleagues viewed the spreading
contamination with consternation. Their concerns were twofold: They didn't
want to lose any material, and they were just beginning to understand its
potential hazards. Joseph Kennedy, another member of the Berkeley team who
had discovered plutonium, acknowledged that it was "not pleasant" to think
that unaccounted-for plutonium was floating around the lab. On the day of
this particular accident—which would be the most serious of any thus far—it
was not the lost plutonium that would be the problem. It was the plutonium
in Mastick's vial.

A purplish-color liquid that gave off an eerie, animallike warmth when
concentrated in larger amounts, the plutonium in the vial had undergone an
unanticipated transformation overnight. Some of the liquid had been
converted into gas and was pushing against the walls of the bottle. Other
molecules were tunneling into the sides of the glass itself.

Unaware of the small bomb he was holding, Mastick snapped the slender neck
of the vial. It made a small, popping sound in the quiet laboratory.
Instantly the material spewed out of the bottle and onto the wall in front
of him. Some of the solution ricocheted back into his mouth, flooding his
lips and tongue with a metallic taste.

Not overly alarmed, Mastick replaced the vial in its wooden container. Then
he trotted across the hard-packed ground of the technical area to knock on
the door of Dr. Hempelmann's first-aid station. He had just swallowed a
significant amount of the world's supply of plutonium. "I could taste the
acid so I knew perfectly well I had a little bit of plutonium in my mouth,"
he said in an interview in 1995.

Louis Hempelmann's office was just a few minutes' walk from D Building,
where Mastick worked. With its "deluge shower baths" and clothes-changing
rooms, D Building was one of the most elaborately ventilated and costly
structures at Los Alamos. Except for the forest of metal pipes protruding
from the roof, it looked no different from the other green clapboard
structures in the technical area.

Hempelmann was the medical doctor in charge of protecting technical
personnel on the bomb project from "unusual hazards," and he reported
directly to J. Robert Oppenheimer. With his long, narrow face and wide jaw,
Hempelmann wasn't handsome, but there was something refined and pleasing
about his appearance. He was the son and grandson of doctors and a fine
physician in his own right, although he was known to grow queasy at the
sight of blood. ("Louie did his first sternal puncture on me and he almost
fainted. He's one of those doctors that can't stand the sight of blood—he
should have been a psychologist or something," said Harold Agnew, one in a
line of laboratory directors who succeeded Oppenheimer.)

Taking great pains to keep his long face expressionless, Hempelmann listened
to Mastick's account of what had happened and then left the room for a
moment in order to make a frantic phone call to Colonel Stafford Warren, the
affable medical director of the Manhattan Project. Hempelmann often turned
to Warren, who was nearly two decades older, for advice and reassurance. In
his late forties when he was commissioned as an Army colonel, Warren was a
big man, well over six feet tall, who exuded a breezy confidence. Unlike
many of the scientists on the bomb project, who refused to join the armed
forces and chafed under military control, Warren loved being in the Army. He
liked the rough feel of his starched uniform, the silver eagles on his
collar, the .45 revolver tucked in a holster on his belt.

Speaking on a secure telephone line from his office at the Manhattan
Project's headquarters in Oak Ridge, Tennessee, Warren tried to calm
Hempelmann down. He thought about the accident for a moment and then
suggested that the young doctor try using a mouthwash and expectorant to
remove the plutonium from the chemist's mouth. Hempelmann hung up and
hurried back to the examining room where he prepared two mixtures. The first
was a sodium citrate solution that would chemically combine with the
plutonium in Mastick's mouth to form a soluble liquid; the second was a
bicarbonate rinse that would render the material insoluble again.

Mastick swished the solutions around in his mouth and then spit them into a
beaker. The first mouthful contained almost one-half microgram of plutonium.
A microgram of plutonium, which is a millionth of a gram, was considered in
1945 to be the maximum amount of plutonium that could be retained in the
human body without causing harm. Eleven more times at fifteen-minute
intervals Mastick swished the two solutions around in his mouth and then
spit them into the beaker.

After the accident, Mastick's breath was so hot that he could stand six feet
away and blow the needles on the radiation monitors off scale. His urine
contained detectable plutonium for many years. In one of several interviews
Mastick said that he was undoubtedly still excreting "a few atoms" of
plutonium but had suffered no ill effects.

When the mouth washings finally were finished, Hempelmann ordered the young
man to lie down on a cot. Then he pumped out his stomach several times.
Carefully he transferred the stomach liquids into a tall beaker. The
plutonium would have to be chemically separated from the organic matter in
Mastick's stomach and mouth so it could be reused in future experiments. No
scientist at the lab had ever undertaken such a task.

Hempelmann gave the young chemist a couple of breakfast waffles for his
empty stomach and some Sippy alkaline powders to be taken during the day.
Then he turned and handed him the four-liter beaker of murky liquid.

Go, he said, retrieve the plutonium.

Mastick returned to his lab with the beaker and opened his textbooks. It
took a "little rapid-fire research," as he put it, to figure out how to
separate the plutonium from the organic matter. But he didn't flinch from
the task, despite the ordeal he had just been through. "Since I was the
plutonium chemist at that point, I was the logical choice to recover it."
>From Mastick's perspective, the mood in which all these events took place
was calm, deliberate, and "almost humorous." But other people did not feel
nearly so relaxed about what had occurred.

The day after the accident, Hempelmann sat down and wrote Stafford Warren a
thank-you note. "I was sorry to bother you but was anxious to have your help
and moral support. In retrospect, I think that the chances of the fellow's
having swallowed a dangerous amount of material are slight." Hempelmann told
Warren that he believed about ten micrograms of plutonium had entered
Mastick's mouth. The mouth washings had removed all but one microgram, an
infinitesimal but nevertheless hazardous amount. More important, Hempelmann
thought the chemist had not inhaled any plutonium. At that time scientists
knew that plutonium was extremely hazardous if it was breathed in and
deposited in lung tissue. But they also were discovering that the
radioactive material was not readily absorbed through the gastrointestinal
tract and that it could not penetrate beyond the outer layer of human skin.
Thus, most of the microgram of plutonium in Mastick's mouth undoubtedly
would have passed through his digestive system and out of his body without
being absorbed.

A catastrophe had been avoided, but the accident was a vivid reminder of the
invisible dangers that scientists and workers were confronted with at "Site
Y," the code name for Los Alamos. The responsibilities seemed overwhelming
to Hempelmann, who was only twenty-nine years old and a neophyte when it
came to understanding radiation. He had been working with radioactive
materials for three years. As for plutonium, he had only about six months of
hands-on experience. "There were all sorts of problems," he admitted years
later, "which I just couldn't handle because of limited experience."

© 1999 Eileen Welsome

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