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62-922: The Kansas City National Security Campus ( KCNSC ), formerly known as the Kansas City Plant , is a National Nuclear Security Administration (NNSA) facility managed and operated by Honeywell Federal Manufacturing & Technologies that manufactures "80 percent of non-nuclear components that go into the [United States] nuclear stockpile ." The plant produces non-nuclear mechanical, electronic, and engineered material components for U.S. national defense systems such as high-energy laser ignition systems, microwave hybrid microcircuit production, and miniature electromechanical devices. It also provides technical services such as metallurgical/mechanical analysis, analytical chemistry, environmental testing, nondestructive testing, computer-based training, simulations and analysis, and technical certification. The plant traces its history to

124-526: A classical system , rather than a quantum-mechanical one. In the resulting liquid-drop model , the nucleus has an energy that arises partly from surface tension and partly from electrical repulsion of the protons. The liquid-drop model is able to reproduce many features of nuclei, including the general trend of binding energy with respect to mass number, as well as the phenomenon of nuclear fission . Superimposed on this classical picture, however, are quantum-mechanical effects, which can be described using

186-493: A phase transition from normal nuclear matter to a new state, the quark–gluon plasma , in which the quarks mingle with one another, rather than being segregated in triplets as they are in neutrons and protons. Eighty elements have at least one stable isotope which is never observed to decay, amounting to a total of about 251 stable nuclides. However, thousands of isotopes have been characterized as unstable. These "radioisotopes" decay over time scales ranging from fractions of

248-450: A Polish physicist whose maiden name was Sklodowska, Pierre Curie , Ernest Rutherford and others. By the turn of the century, physicists had also discovered three types of radiation emanating from atoms, which they named alpha , beta , and gamma radiation. Experiments by Otto Hahn in 1911 and by James Chadwick in 1914 discovered that the beta decay spectrum was continuous rather than discrete. That is, electrons were ejected from

310-408: A different number of protons. In alpha decay , which typically occurs in the heaviest nuclei, the radioactive element decays by emitting a helium nucleus (2 protons and 2 neutrons), giving another element, plus helium-4 . In many cases this process continues through several steps of this kind, including other types of decays (usually beta decay) until a stable element is formed. In gamma decay ,

372-408: A nucleus decays from an excited state into a lower energy state, by emitting a gamma ray . The element is not changed to another element in the process (no nuclear transmutation is involved). Other more exotic decays are possible (see the first main article). For example, in internal conversion decay, the energy from an excited nucleus may eject one of the inner orbital electrons from the atom, in

434-518: A process which produces high speed electrons but is not beta decay and (unlike beta decay) does not transmute one element to another. In nuclear fusion , two low-mass nuclei come into very close contact with each other so that the strong force fuses them. It requires a large amount of energy for the strong or nuclear forces to overcome the electrical repulsion between the nuclei in order to fuse them; therefore nuclear fusion can only take place at very high temperatures or high pressures. When nuclei fuse,

496-488: A second to trillions of years. Plotted on a chart as a function of atomic and neutron numbers, the binding energy of the nuclides forms what is known as the valley of stability . Stable nuclides lie along the bottom of this energy valley, while increasingly unstable nuclides lie up the valley walls, that is, have weaker binding energy. The most stable nuclei fall within certain ranges or balances of composition of neutrons and protons: too few or too many neutrons (in relation to

558-507: A spin of ± + 1 ⁄ 2 . In the Rutherford model of nitrogen-14, 20 of the total 21 nuclear particles should have paired up to cancel each other's spin, and the final odd particle should have left the nucleus with a net spin of 1 ⁄ 2 . Rasetti discovered, however, that nitrogen-14 had a spin of 1. In 1932 Chadwick realized that radiation that had been observed by Walther Bothe , Herbert Becker , Irène and Frédéric Joliot-Curie

620-494: A very large amount of energy is released and the combined nucleus assumes a lower energy level. The binding energy per nucleon increases with mass number up to nickel -62. Stars like the Sun are powered by the fusion of four protons into a helium nucleus, two positrons , and two neutrinos . The uncontrolled fusion of hydrogen into helium is known as thermonuclear runaway. A frontier in current research at various institutions, for example

682-481: A whole, including its electrons . Discoveries in nuclear physics have led to applications in many fields. This includes nuclear power , nuclear weapons , nuclear medicine and magnetic resonance imaging , industrial and agricultural isotopes, ion implantation in materials engineering , and radiocarbon dating in geology and archaeology . Such applications are studied in the field of nuclear engineering . Particle physics evolved out of nuclear physics and

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744-514: Is a United States federal agency responsible for safeguarding national security through the military application of nuclear science . NNSA maintains and enhances the safety, security, and effectiveness of the U.S. nuclear weapons stockpile; works to reduce the global danger from weapons of mass destruction ; provides the United States Navy with safe and effective nuclear propulsion ; and responds to nuclear and radiological emergencies in

806-412: Is held together by the strong nuclear force, unless it is too large. Unstable nuclei may undergo alpha decay, in which they emit an energetic helium nucleus, or beta decay, in which they eject an electron (or positron ). After one of these decays the resultant nucleus may be left in an excited state, and in this case it decays to its ground state by emitting high-energy photons (gamma decay). The study of

868-470: Is responsible for providing efficient nuclear propulsion plants to the United States Navy. It is also known as Naval Reactors . It conducts the design, development and operational support required to power all the U.S. Navy's aircraft carriers and nuclear submarines . The program consists of both civilian and military personnel who maintain, design, build, and manage the reactors. The following are

930-459: Is the source of energy for nuclear power plants and fission-type nuclear bombs, such as those detonated in Hiroshima and Nagasaki , Japan, at the end of World War II . Heavy nuclei such as uranium and thorium may also undergo spontaneous fission , but they are much more likely to undergo decay by alpha decay. For a neutron-initiated chain reaction to occur, there must be a critical mass of

992-586: The CenterPoint Intermodal Center across the street. The creative ownership method works this way: a government authority (the Kansas City Planned Industrial Expansion Authority) owns the land and improvements and leases the project to CPZ Holding LLC. CPZ Holding subleases it to CenterPoint Zimmer LLC, which sub-subleases it to the government. Upon expiration of the government authority's lease, CPZ Holding will own

1054-466: The Joint European Torus (JET) and ITER , is the development of an economically viable method of using energy from a controlled fusion reaction. Nuclear fusion is the origin of the energy (including in the form of light and other electromagnetic radiation) produced by the core of all stars including our own Sun. Nuclear fission is the reverse process to fusion. For nuclei heavier than nickel-62

1116-664: The Pratt & Whitney plant dedicated by then Senator Harry S. Truman in 1942, which manufactured Double Wasp engines during World War II . In 1949 the Atomic Energy Commission commissioned the Bendix Corporation (specifically, the Bendix Aviation Corporation ) to build the non-nuclear components of nuclear warheads there. Bendix became AlliedSignal in 1983 and eventually Honeywell in 1999. Workers at

1178-705: The Top500 list. Another important asset used to test the stockpile is the National Ignition Facility (NIF) at LLNL , a laser-based inertial confinement fusion research device. NIF achieved the first scientific breakeven controlled fusion experiment on December 5, 2022, with an energy gain factor of 1.5. Since then four additional ignition shots followed the December experiment: July 30, 2023; October 8, 2023; October 30, 2023; and February 12, 2024. The most recent experiment produced an estimated 5.2 MJ—more than doubling

1240-424: The electron by J. J. Thomson a year later was an indication that the atom had internal structure. At the beginning of the 20th century the accepted model of the atom was J. J. Thomson's "plum pudding" model in which the atom was a positively charged ball with smaller negatively charged electrons embedded inside it. In the years that followed, radioactivity was extensively investigated, notably by Marie Curie ,

1302-433: The nuclear shell model , developed in large part by Maria Goeppert Mayer and J. Hans D. Jensen . Nuclei with certain " magic " numbers of neutrons and protons are particularly stable, because their shells are filled. Other more complicated models for the nucleus have also been proposed, such as the interacting boson model , in which pairs of neutrons and protons interact as bosons . Ab initio methods try to solve

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1364-462: The "heavier elements" (carbon, element number 6, and elements of greater atomic number ) that we see today, were created inside stars during a series of fusion stages, such as the proton–proton chain , the CNO cycle and the triple-alpha process . Progressively heavier elements are created during the evolution of a star. Energy is only released in fusion processes involving smaller atoms than iron because

1426-549: The Office of Materials Management and Minimization is divided into three subprograms: Conversion, Nuclear Materials Removal, and Material Disposition. Through this office and its predecessors, NNSA has successfully led the recovery efforts of nuclear materials from dozens of countries. Since 1996, the Department of Energy/NNSA has disposed of enough material to produce more than 325 nuclear weapons. For example, in 2017, it removed all

1488-766: The Super Bowl. NNSA provides expertise, tools and technically informed policy recommendations to advance U.S. nuclear counterterrorism and counterproliferation objectives. It is responsible for understanding nuclear threat devices and foreign activities that cause proliferation concerns. To do this, members of the counterproliferation office confer with international counterparts on nuclear security and counterterrorism; conduct scientific research to characterize, detect and defeat nuclear threat devices; develop and conduct WMD counterterrorism exercises; and promote nuclear information security policy and practices. NNSA's Nuclear Propulsion Program – working with Naval Nuclear Laboratories –

1550-677: The United States and abroad. Established by the United States Congress in 2000, NNSA is a semiautonomous agency within the United States Department of Energy . The current Administrator is Jill Hruby . The National Nuclear Security Administration was created by Congressional action in 1999, in the wake of the Wen Ho Lee spy scandal and other allegations that lax administration by the Department of Energy had resulted in

1612-494: The atom with a continuous range of energies, rather than the discrete amounts of energy that were observed in gamma and alpha decays. This was a problem for nuclear physics at the time, because it seemed to indicate that energy was not conserved in these decays. The 1903 Nobel Prize in Physics was awarded jointly to Becquerel, for his discovery and to Marie and Pierre Curie for their subsequent research into radioactivity. Rutherford

1674-403: The atom, in which the atom had a very small, very dense nucleus containing most of its mass, and consisting of heavy positively charged particles with embedded electrons in order to balance out the charge (since the neutron was unknown). As an example, in this model (which is not the modern one) nitrogen-14 consisted of a nucleus with 14 protons and 7 electrons (21 total particles) and the nucleus

1736-538: The binding energy per nucleon peaks around iron (56 nucleons). Since the creation of heavier nuclei by fusion requires energy, nature resorts to the process of neutron capture. Neutrons (due to their lack of charge) are readily absorbed by a nucleus. The heavy elements are created by either a slow neutron capture process (the so-called s -process ) or the rapid , or r -process . The s process occurs in thermally pulsing stars (called AGB, or asymptotic giant branch stars) and takes hundreds to thousands of years to reach

1798-486: The binding energy per nucleon decreases with the mass number. It is therefore possible for energy to be released if a heavy nucleus breaks apart into two lighter ones. The process of alpha decay is in essence a special type of spontaneous nuclear fission . It is a highly asymmetrical fission because the four particles which make up the alpha particle are especially tightly bound to each other, making production of this nucleus in fission particularly likely. From several of

1860-601: The capability to assure the reliability, safety, and security of the nation's nuclear deterrent while enabling NNSA to recruit and retain the next generation of scientists and engineers. Initially announced in 2009, the General Services Administration announced that Zimmer Real Estate Services and CenterPoint Properties had won a bid to build the replacement plant. The site, adjacent to the former Richards-Gebaur Air Force Base in south Kansas City near Grandview, Missouri . Zimmer and CenterPoint already owned

1922-542: The content of Proca's equations for developing a theory of the atomic nuclei in Nuclear Physics. In 1935 Hideki Yukawa proposed the first significant theory of the strong force to explain how the nucleus holds together. In the Yukawa interaction a virtual particle , later called a meson , mediated a force between all nucleons, including protons and neutrons. This force explained why nuclei did not disintegrate under

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1984-459: The discovery that the nucleus itself was composed of smaller constituents, the nucleons . In 1906, Ernest Rutherford published "Retardation of the α Particle from Radium in passing through matter." Hans Geiger expanded on this work in a communication to the Royal Society with experiments he and Rutherford had done, passing alpha particles through air, aluminum foil and gold leaf. More work

2046-628: The effectiveness of the American nuclear weapons stockpile include the Dual-Axis Radiographic Hydrodynamic Test Facility (DARHT) at Los Alamos National Laboratory, the Contained Firing Facility at Lawrence Livermore National Laboratory and the Z Machine at Sandia National Laboratories. NNSA also uses powerful supercomputers to run simulations and validate experimental data; these computers often appear on

2108-401: The elements of the program: NNSA has several offices that support its primary missions. Among them are: NNSA's Office of Emergency Operations has the obligation of responding to emergencies on behalf of the entire Department of Energy. Its high level of alertness allows the United States to respond to incidents in a rapid manner. NNSA's Office of Defense Nuclear Security is responsible for

2170-426: The equivalence of mass and energy to within 1% as of 1934. Alexandru Proca was the first to develop and report the massive vector boson field equations and a theory of the mesonic field of nuclear forces . Proca's equations were known to Wolfgang Pauli who mentioned the equations in his Nobel address, and they were also known to Yukawa, Wentzel, Taketani, Sakata, Kemmer, Heitler, and Fröhlich who appreciated

2232-405: The existing nuclear deterrent through the use of science experiments, engineering audits and high-tech simulations at its three national laboratories : Los Alamos National Laboratory , Lawrence Livermore National Laboratory , and Sandia National Laboratories . It also creates new weapons programs as required by the United States Department of Defense . NNSA assets used to maintain and ensure

2294-412: The foil with their trajectories being at most slightly bent. But Rutherford instructed his team to look for something that shocked him to observe: a few particles were scattered through large angles, even completely backwards in some cases. He likened it to firing a bullet at tissue paper and having it bounce off. The discovery, with Rutherford's analysis of the data in 1911, led to the Rutherford model of

2356-747: The heat emanating from the Earth's core results from radioactive decay. However, it is not known if any of this results from fission chain reactions. According to the theory, as the Universe cooled after the Big Bang it eventually became possible for common subatomic particles as we know them (neutrons, protons and electrons) to exist. The most common particles created in the Big Bang which are still easily observable to us today were protons and electrons (in equal numbers). The protons would eventually form hydrogen atoms. Almost all

2418-439: The heaviest nuclei whose fission produces free neutrons, and which also easily absorb neutrons to initiate fission, a self-igniting type of neutron-initiated fission can be obtained, in a chain reaction . Chain reactions were known in chemistry before physics, and in fact many familiar processes like fires and chemical explosions are chemical chain reactions. The fission or "nuclear" chain-reaction , using fission-produced neutrons,

2480-609: The highly enriched uranium from Ghana and repatriated it to China. The Ghanaian reactor now uses low-enriched uranium. NNSA's Office of Counterterrorism and Counterproliferation focuses on: The office oversees the capabilities of the Nuclear Emergency Support Team . NNSA deploys response teams dozens of times each year, usually to check for radioactive materials. Missions assuage safety concerns, support other agencies, and bolster law enforcement capabilities at large public events such as presidential inaugurations and

2542-417: The influence of proton repulsion, and it also gave an explanation of why the attractive strong force had a more limited range than the electromagnetic repulsion between protons. Later, the discovery of the pi meson showed it to have the properties of Yukawa's particle. With Yukawa's papers, the modern model of the atom was complete. The center of the atom contains a tight ball of neutrons and protons, which

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2604-488: The input energy of 2.2 MJ. The Office of Secure Transportation provides safe and secure transportation of nuclear weapons and components and special nuclear materials, and conducts other missions supporting national security. OST shipments are moved in specially designed equipment and escorted by armed and specially trained federal agents . NNSA's Office of Defense Nuclear Nonproliferation works with international partners, federal agencies, U.S. national laboratories, and

2666-465: The loss of U.S. nuclear secrets to China. Originally proposed to be an independent agency, it was instead chartered as a semiautonomous agency within the Department of Energy to be headed by an administrator reporting to the Secretary of Energy. The first Under Secretary for Nuclear Security and NNSA administrator appointed was Air Force General (and CIA Deputy Director) John A. Gordon . In 2006, it

2728-418: The neutrons created in the Big Bang were absorbed into helium-4 in the first three minutes after the Big Bang, and this helium accounts for most of the helium in the universe today (see Big Bang nucleosynthesis ). Some relatively small quantities of elements beyond helium (lithium, beryllium, and perhaps some boron) were created in the Big Bang, as the protons and neutrons collided with each other, but all of

2790-536: The northwest corner of Missouri Highway 150 and Botts Road on the north edge of Richards-Gebaur. The developers pay more than $ 5 million a year in lieu of property taxes. Half is used to retire the debt service on $ 40 million worth of public infrastructure improvements and half funds local tax agencies. 38°51′43″N 94°33′10″W  /  38.861973°N 94.552716°W  / 38.861973; -94.552716 National Nuclear Security Administration The National Nuclear Security Administration ( NNSA )

2852-660: The nuclear many-body problem from the ground up, starting from the nucleons and their interactions. Much of current research in nuclear physics relates to the study of nuclei under extreme conditions such as high spin and excitation energy. Nuclei may also have extreme shapes (similar to that of Rugby balls or even pears ) or extreme neutron-to-proton ratios. Experimenters can create such nuclei using artificially induced fusion or nucleon transfer reactions, employing ion beams from an accelerator . Beams with even higher energies can be used to create nuclei at very high temperatures, and there are signs that these experiments have produced

2914-409: The number of protons) will cause it to decay. For example, in beta decay , a nitrogen -16 atom (7 protons, 9 neutrons) is converted to an oxygen -16 atom (8 protons, 8 neutrons) within a few seconds of being created. In this decay a neutron in the nitrogen nucleus is converted by the weak interaction into a proton, an electron and an antineutrino . The element is transmuted to another element, with

2976-405: The overall security of facilities housing nuclear weapons as well as the components and materials required to develop them -- this includes oversight of Federal Protective Forces at NNSA's labs, plants, and sites. The office also safeguards personnel and produces threat assessments. Nuclear physics Nuclear physics should not be confused with atomic physics , which studies the atom as

3038-640: The private sector to discover, protect, and or dispose of radiological and nuclear materials. The office strives to: The agency created the Global Threat Reduction Initiative in 2004 to expand efforts similar to the Cooperative Threat Reduction program beyond the former Soviet Union. In 2016, GTRI was renamed the Office of Materials Management and Minimization, and continues the efforts of supporting reactor conversions, fuel returns, and LEU fuel development. The work of

3100-574: The problem of the spin of nitrogen-14, as the one unpaired proton and one unpaired neutron in this model each contributed a spin of 1 ⁄ 2 in the same direction, giving a final total spin of 1. With the discovery of the neutron, scientists could at last calculate what fraction of binding energy each nucleus had, by comparing the nuclear mass with that of the protons and neutrons which composed it. Differences between nuclear masses were calculated in this way. When nuclear reactions were measured, these were found to agree with Einstein's calculation of

3162-552: The project. Financing for the $ 750+ million project cost was structured and provided by CGA Capital. In March 2017 affiliates of CGA Capital acquired all of the interests of and in CPZ Holding from CenterPoint Properties and its partners, and will own the project upon expiration of the government authority's lease. HNTB Architecture designed the campus, Gibbens Drake Scott Inc. designed the mechanical, electrical, and plumbing features, which consist of 1.5 million rentable square feet on

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3224-498: The relevant isotope present in a certain space under certain conditions. The conditions for the smallest critical mass require the conservation of the emitted neutrons and also their slowing or moderation so that there is a greater cross-section or probability of them initiating another fission. In two regions of Oklo , Gabon, Africa, natural nuclear fission reactors were active over 1.5 billion years ago. Measurements of natural neutrino emission have demonstrated that around half of

3286-591: The site are represented by the International Association of Machinists and Aerospace Workers (IAMAW). In 2014, the Kansas City Plant moved to the renamed Kansas City National Security Campus, a state-of-art facility including manufacturing, laboratory, office, and warehouse space. The move saves the government about $ 100 million annually in operating costs and cut energy consumption by more than 50 percent. The smaller, more efficient facility maintains

3348-486: The strong and weak nuclear forces (the latter explained by Enrico Fermi via Fermi's interaction in 1934) led physicists to collide nuclei and electrons at ever higher energies. This research became the science of particle physics , the crown jewel of which is the standard model of particle physics , which describes the strong, weak, and electromagnetic forces . A heavy nucleus can contain hundreds of nucleons . This means that with some approximation it can be treated as

3410-471: The two fields are typically taught in close association. Nuclear astrophysics , the application of nuclear physics to astrophysics , is crucial in explaining the inner workings of stars and the origin of the chemical elements . The history of nuclear physics as a discipline distinct from atomic physics , starts with the discovery of radioactivity by Henri Becquerel in 1896, made while investigating phosphorescence in uranium salts. The discovery of

3472-480: Was a particularly remarkable development since at that time fusion and thermonuclear energy, and even that stars are largely composed of hydrogen (see metallicity ), had not yet been discovered. The Rutherford model worked quite well until studies of nuclear spin were carried out by Franco Rasetti at the California Institute of Technology in 1929. By 1925 it was known that protons and electrons each had

3534-439: Was actually due to a neutral particle of about the same mass as the proton, that he called the neutron (following a suggestion from Rutherford about the need for such a particle). In the same year Dmitri Ivanenko suggested that there were no electrons in the nucleus — only protons and neutrons — and that neutrons were spin 1 ⁄ 2 particles, which explained the mass not due to protons. The neutron spin immediately solved

3596-506: Was awarded the Nobel Prize in Chemistry in 1908 for his "investigations into the disintegration of the elements and the chemistry of radioactive substances". In 1905, Albert Einstein formulated the idea of mass–energy equivalence . While the work on radioactivity by Becquerel and Marie Curie predates this, an explanation of the source of the energy of radioactivity would have to wait for

3658-489: Was confirmed that NNSA employee information had been hacked. A report criticized the response. NNSA's Administrator took responsibility. NNSA has the following missions with regard to national security: One of NNSA's primary missions is to maintain the safety, security and effectiveness of the United States' nuclear weapons stockpile. After the Cold War , the U.S. voluntarily ended underground nuclear testing . NNSA maintains

3720-460: Was performed during 1909, at the University of Manchester . Ernest Rutherford's assistant, Professor Johannes "Hans" Geiger, and an undergraduate, Marsden, performed an experiment in which Geiger and Marsden under Rutherford's supervision fired alpha particles ( helium 4 nuclei ) at a thin film of gold foil. The plum pudding model had predicted that the alpha particles should come out of

3782-463: Was published in 1909 by Geiger and Ernest Marsden , and further greatly expanded work was published in 1910 by Geiger . In 1911–1912 Rutherford went before the Royal Society to explain the experiments and propound the new theory of the atomic nucleus as we now understand it. Published in 1909, with the eventual classical analysis by Rutherford published May 1911, the key preemptive experiment

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3844-495: Was surrounded by 7 more orbiting electrons. Around 1920, Arthur Eddington anticipated the discovery and mechanism of nuclear fusion processes in stars , in his paper The Internal Constitution of the Stars . At that time, the source of stellar energy was a complete mystery; Eddington correctly speculated that the source was fusion of hydrogen into helium, liberating enormous energy according to Einstein's equation E = mc . This

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