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Walid Younes,Walter D. Loveland

An Introduction to Nuclear Fission

An Introduction to Nuclear Fission

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This textbook provides students with an introduction to nuclear fission physics through worked examples and problem sets, covering experimental and theoretical aspects. It highlights the importance of the field in research and applications, such as nuclear energy, national security, and medical isotope production.

Format: Hardback
Length: 187 pages
Publication date: 16 November 2021
Publisher: Springer Nature Switzerland AG


This comprehensive textbook serves as an invaluable guide for physics and nuclear engineering students, delving into both experimental and theoretical aspects of fission physics with a focus on research and applications. The field of nuclear fission is experiencing a remarkable resurgence, driven by recent breakthroughs that offer immense potential for developing more accurate models of fission predictability and providing crucial measurements and data to vital areas such as nuclear energy, national security, counter-proliferation, and medical isotope production. By offering a solid foundation of knowledge, An Introduction to Nuclear Fission prepares the next generation of researchers to make significant contributions to the field of nuclear fission physics.

The study of nuclear fission has been a subject of intense research and exploration for decades, and recent advancements have brought about a renewed interest in this field. These developments have opened up new avenues for understanding the complex mechanisms involved in fission reactions and have the potential to revolutionize various industries and applications.

One of the key areas of focus in nuclear fission research is the development of more reliable models for predicting fission events. These models can be used to improve the safety and efficiency of nuclear power plants, as well as to develop strategies for managing nuclear waste and preventing the proliferation of nuclear weapons. By incorporating advanced computational techniques and machine learning algorithms, researchers are able to analyze large datasets and make accurate predictions about fission events, which can help mitigate the risks associated with nuclear energy production.

Another important application of nuclear fission is in the field of medical isotope production. Medical isotopes are used in a wide range of diagnostic and therapeutic procedures, including cancer imaging, radiation therapy, and drug delivery. The production of these isotopes requires specialized equipment and techniques, and recent advances in nuclear fission technology have made it possible to produce these isotopes more efficiently and cost-effectively. By using nuclear fission to generate radioisotopes, medical professionals can provide patients with the precise treatment they need, while also reducing the environmental impact of traditional isotope production methods.

In addition to its applications in energy and medicine, nuclear fission also plays a crucial role in national security and counter-proliferation efforts. By using nuclear fission to generate electricity, countries can reduce their dependence on fossil fuels and reduce greenhouse gas emissions. However, the use of nuclear energy also poses risks, particularly in the context of terrorism and the proliferation of nuclear weapons. To address these risks, governments and international organizations have developed strict regulations and security measures to ensure the safe and secure use of nuclear energy.

Despite the many benefits of nuclear fission, there are also concerns about the environmental impact of nuclear energy production and the potential for accidents and incidents. These concerns have led to calls for increased safety measures and the development of alternative energy sources that are less environmentally harmful and more sustainable.

In conclusion, the study of nuclear fission is currently undergoing a renaissance, driven by recent advances in technology and research. These advancements have the potential to revolutionize various industries and applications, from energy production to medical isotope production to national security. However, it is important to address the many challenges and concerns associated with nuclear fission, including safety, security, and environmental impact, to ensure that this valuable resource is used responsibly and sustainably.

Weight: 483g
Dimension: 235 x 155 (mm)
ISBN-13: 9783030845919
Edition number: 1st ed. 2021

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