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Atomic Age Began 75 Years Ago with the First Controlled Nuclear Chain Reaction
www.scientificamerican.com ^ | 12/03/2017 | By Artemis Spyrou, Wolfgang Mittig,

Posted on 12/13/2017 11:20:50 AM PST by Red Badger

The finding that fission releases huge amounts of energy launched a scientific and military race to understand and use this new atomic source of power

Over Christmas vacation in 1938, physicists Lise Meitner and Otto Frisch received puzzling scientific news in a private letter from nuclear chemist Otto Hahn. When bombarding uranium with neutrons, Hahn had made some surprising observations that went against everything known at the time about the dense cores of atoms—their nuclei.

Meitner and Frisch were able to provide an explanation for what he saw that would revolutionize the field of nuclear physics: A uranium nucleus could split in half—or fission, as they called it—producing two new nuclei, called fission fragments. More importantly, this fission process releases huge amounts of energy. This finding at the dawn of World War II was the start of a scientific and military race to understand and use this new atomic source of power.

The release of these findings to the academic community immediately inspired many nuclear scientists to investigate the nuclear fission process further. Physicist Leo Szilard made an important realization: if fission emits neutrons, and neutrons can induce fission, then neutrons from the fission of one nucleus could cause the fission of another nucleus. It could all cascade in a self-sustained “chain” process.

Thus began the quest to experimentally prove that a nuclear chain reaction was possible—and 75 years ago, researchers at the University of Chicago succeeded, opening the door to what would become the nuclear era. Harnessing fission

As part of the Manhattan Project effort to build an atomic bomb during World War II, Szilard worked together with physicist Enrico Fermi and other colleagues at the University of Chicago to create the world’s first experimental nuclear reactor.

For a sustained, controlled chain reaction, each fission must induce just one additional fission. Any more, and there’d be an explosion. Any fewer and the reaction would peter out.

In earlier studies, Fermi had found that uranium nuclei would absorb neutrons more easily if the neutrons were moving relatively slowly. But neutrons emitted from the fission of uranium are fast. So for the Chicago experiment, the physicists used graphite to slow down the emitted neutrons, via multiple scattering processes. The idea was to increase the neutrons’ chances of being absorbed by another uranium nucleus.

To make sure they could safely control the chain reaction, the team rigged together what they called “control rods.” These were simply sheets of the element cadmium, an excellent neutron absorber. The physicists interspersed control rods through the uranium-graphite pile. At every step of the process Fermi calculated the expected neutron emission, and slowly removed a control rod to confirm his expectations. As a safety mechanism, the cadmium control rods could quickly be inserted if something started going wrong, to shut down the chain reaction.

They called this 20x6x25-foot setup Chicago Pile Number One, or CP-1 for short—and it was here they obtained world’s the first controlled nuclear chain reaction on December 2, 1942. A single random neutron was enough to start the chain reaction process once the physicists assembled CP-1. The first neutron would induce fission on a uranium nucleus, emitting a set of new neutrons. These secondary neutrons hit carbon nuclei in the graphite and slowed down. Then they’d run into other uranium nuclei and induce a second round of fission reactions, emit even more neutrons, and on and on. The cadmium control rods made sure the process wouldn’t continue indefinitely, because Fermi and his team could choose exactly how and where to insert them to control the chain reaction.

Controlling the chain reaction was extremely important: If the balance between produced and absorbed neutrons was not exactly right, then the chain reactions either would not proceed at all, or in the other much more dangerous extreme, the chain reactions would multiply rapidly with the release of enormous amounts of energy.

Sometimes, a few seconds after the fission occurs in a nuclear chain reaction, additional neutrons are released. Fission fragments are typically radioactive, and can emit different types of radiation, among them neutrons. Right away, Enrico Fermi, Leo Szilard, Eugene Wigner and others recognized the importance of these so-called “delayed neutrons” in controlling the chain reaction.

If they weren’t taken into account, these additional neutrons would induce more fission reactions than anticipated. As a result, the nuclear chain reaction in their Chicago experiment could have spiraled out of control, with potentially devastating results. More importantly, however, this time delay between the fission and the release of more neutrons allows some time for human beings to react and make adjustments, controlling the power of the chain reaction so it doesn’t proceed too fast.

The events of December 2, 1942 marked a huge milestone. Figuring out how to create and control the nuclear chain reaction was the foundation for the 448 nuclear reactors producing energy worldwide today. At present, 30 countries include nuclear reactors in their power portfolio. Within these countries, nuclear energy contributes on average 24 percent of their total electrical power, ranging as high as 72 percent in France.

CP-1’s success was also essential for the continuation of the Manhattan Project and the creation of the two atomic bombs used during World War II. Physicists’ remaining questions

The quest to understand delayed neutron emission and nuclear fission continues in modern nuclear physics laboratories. The race today is not for building atomic bombs or even nuclear reactors; it’s for understanding of basic properties of nuclei through close collaboration between experiment and theory.

Researchers have observed fission experimentally only for a small number of isotopes – the various versions of an element based on how many neutrons each has—and the details of this complex process are not yet well-understood. State-of-the-art theoretical models try to explain the observed fission properties, like how much energy is released, the number of neutrons emitted and the masses of the fission fragments.

Delayed neutron emission happens only for nuclei that are not naturally occurring, and these nuclei live for only a short amount of time. While experiments have revealed some of the nuclei that emit delayed neutrons, we are not yet able to reliably predict which isotopes should have this property. We also don’t know exact probabilities for delayed neutron emission or the amount of energy released—properties that are very important for understanding the details of energy production in nuclear reactors.

In addition, researchers are trying to predict new nuclei where nuclear fission might be possible. They’re building new experiments and powerful new facilities which will provide access to nuclei that have never before been studied, in an attempt to measure all these properties directly. Together, the new experimental and theoretical studies will give us a much better understanding of nuclear fission, which can help improve the performance and safety of nuclear reactors.

Both fission and delayed neutron emission are processes that also happen within stars. The creation of heavy elements, like silver and gold, in particular can depend on the fission and delayed neutron emission properties of exotic nuclei. Fission breaks the heaviest elements and replaces them with lighter ones (fission fragments), completely changing the element composition of a star. Delayed neutron emission adds more neutrons to the stellar environment, that can then induce new nuclear reactions. For example, nuclear properties played a vital role in the neutron-star merger event that was recently discovered by gravitational-wave and electromagnetic observatories around the world.

The science has come a long way since Szilard’s vision and Fermi’s proof of a controlled nuclear chain reaction. At the same time, new questions have emerged, and there’s still a lot to learn about the basic nuclear properties that drive the chain reaction and its impact on energy production here on Earth and elsewhere in our universe.


TOPICS: Education; History; Military/Veterans; Science
KEYWORDS: artemisspyrou; atom; atomicage; enricofermi; fermi; fission; godsgravesglyphs; leoszilard; lisemeitner; ottofrisch; ottohahn; wolfgangmittig
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This article was originally published on The Conversation. Read the original article.

https://theconversation.com/atomic-age-began-75-years-ago-with-the-first-controlled-nuclear-chain-reaction-87154

1 posted on 12/13/2017 11:20:51 AM PST by Red Badger
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To: Red Badger

Bookmark


2 posted on 12/13/2017 11:24:49 AM PST by Fiddlstix (Warning! This Is A Subliminal Tagline! Read it at your own risk!(Presented by TagLines R US))
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To: Red Badger

Fortunately, the Nazi’s couldn’t figure out an A-bomb before Hitler nuked himself.


3 posted on 12/13/2017 11:24:54 AM PST by Jim W N
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To: Red Badger

There’s a small monument on a sidewalk near the center of the campus of the University of Chicago marking the spot where this experiment took place (or actually, took place directly below it, in an underground laboratory)


4 posted on 12/13/2017 11:29:20 AM PST by PGR88
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To: Red Badger

Once the fusion process is safely harnessed, we’ll have clean nuclear energy. Fusion is the energy of the future IMO.


5 posted on 12/13/2017 11:29:58 AM PST by Jim W N
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To: Jim 0216

There is a story about a Nazi state banquet in 1941 or so. A Nazi big shot (Goering?) was sitting next to a university professor and tried to make small talk.

“How are things in the Physics Dept, herr Professor?”
“We have no Physics Dept, herr Reichsfuhrer. They were all Jews and all have emigrated to America.”


6 posted on 12/13/2017 11:32:09 AM PST by ClearCase_guy (Benedict McCain is the worst traitor ever to wear the uniform of the US military.)
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To: Jim 0216

We could not live without it!.................


7 posted on 12/13/2017 11:34:31 AM PST by Red Badger (Road Rage lasts 5 minutes. Road Rash lasts 5 months!.....................)
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To: Red Badger
Good thing OSHA and the EPA didn't exist. Fermi would have been locked up and prosecuted. Years later, 1950 would have come and gone and we would still be awaiting government "impact studies" before development could proceed.
 
8 posted on 12/13/2017 11:36:36 AM PST by Governor Dinwiddie
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To: ClearCase_guy

9 posted on 12/13/2017 11:37:06 AM PST by Jim W N
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To: Governor Dinwiddie

One of the reasons we can’t build a new nuclear power plant is it would be a never-ending process...................


10 posted on 12/13/2017 11:40:15 AM PST by Red Badger (Road Rage lasts 5 minutes. Road Rash lasts 5 months!.....................)
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To: Red Badger

Well, I have a problem with the dangerous fission nuclear power plants but once they get the clean fusion process figured out (haven’t figured out how to deal with the heat requirement), that will be great I think.


11 posted on 12/13/2017 11:41:16 AM PST by Jim W N
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To: Red Badger

“The Making of the Atomic Bomb” by Richard Rhodes is a tremendous book. The period from the early 1920s to the mid 40s was perhaps the most incredible period in human scientific endeavor starting with the Bohr model of the atom and continuing to the use of nuclear weapons.

Another good book is “American Prometheus: The Triumph and Tragedy of J. Robert Oppenheimer” by Kai Bird and Martin J. Sherwin .


12 posted on 12/13/2017 11:57:00 AM PST by ProtectOurFreedom
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To: Red Badger

Hard to believe they made it from discovery to deployment in less than 3 years

Hard to believe my Grandpa worked at Hanford in support of it in those 3 years, and Dad began working in the Hanford reactors in 1955.

Hard to believe I was in Nuke Weapons Tech school 46 years ago.

Third generation nuclear biz in 1971?
Likely not many of us.


13 posted on 12/13/2017 12:00:01 PM PST by G Larry (There is no great virtue in bargaining with the Devil)
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To: Red Badger

14 posted on 12/13/2017 12:04:05 PM PST by Boogieman
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To: PGR88

Yeah, the pile was underneath the bleachers of the old football field.


15 posted on 12/13/2017 12:06:17 PM PST by Boogieman
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To: PGR88

There’s also a marker out in Palos Park woods west of Chicago marking the spot where they buried the original Chicago Pile.


16 posted on 12/13/2017 12:07:50 PM PST by stiguy
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To: G Larry

How’s that third eyeball doin?..................


17 posted on 12/13/2017 12:11:30 PM PST by Red Badger (Road Rage lasts 5 minutes. Road Rash lasts 5 months!.....................)
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To: stiguy

There’s a marker at a spot in Hawaii..............where they buried Gomer Pyle...............


18 posted on 12/13/2017 12:12:13 PM PST by Red Badger (Road Rage lasts 5 minutes. Road Rash lasts 5 months!.....................)
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To: Red Badger

Approaching half a century myself, striking how nuclear power (and practically anything in history) really isn’t that old. Mankind has achieved a LOT in a very short time.


19 posted on 12/13/2017 12:29:53 PM PST by ctdonath2 (It's not "white privilege", it's "Puritan work ethic". Behavior begets consequences.)
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To: ctdonath2

The 20th Century saw more technological advancements than the previous ten centuries combined........................


20 posted on 12/13/2017 12:33:31 PM PST by Red Badger (Road Rage lasts 5 minutes. Road Rash lasts 5 months!.....................)
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