AIMS and SCOPE

AIMS and SCOPES:

The AIMS and SCOPES of Insights in Nuclear Energy, Science, and Engineering are:

  • Nuclear Reactor Design and Analysis: Design and analysis of advanced nuclear reactors, thermal-hydraulics, fuel behavior, reactor physics, safety, and reliability.
  • Nuclear Fuel Cycle: Nuclear fuel cycle including fuel fabrication, irradiation, spent fuel management, and disposal.
  • Nuclear Fusion: Design and analysis of fusion reactors, plasma physics, and fusion technology.
  • Radiation Protection: Radiation protection, environmental impact, and risk assessment.
  • Nuclear Materials: Nuclear materials, including irradiation effects, structural materials, fuel cladding, and corrosion.
  • Nuclear Waste Management: Nuclear waste management and disposal, including high-level waste, low-level waste, and spent fuel.
  • Nuclear Safety and Regulation: Nuclear safety and regulation, including nuclear safety culture, emergency planning, and regulation.
  • Nuclear Applications: Applications of nuclear energy in medicine, agriculture, and industry.
  • Nuclear Education and Outreach: Nuclear education and outreach, including public perception, communication, and nuclear literacy.
  • Nuclear Policy and International Cooperation: Nuclear policy and international cooperation, including nonproliferation, disarmament, and peaceful use.

Keywords/Sub-topics:

  1. Advanced Reactors
  2. Nuclear Fusion Technology
  3. Nuclear Fuel Cycle
  4. Radiation Shielding
  5. Nuclear Materials Characterization
  6. Nuclear Waste Disposal
  7. Safety Culture
  8. Risk Assessment
  9. Nuclear Medicine
  10. Nuclear Agriculture
  11. Nuclear Industry
  12. Public Perception of Nuclear Energy
  13. Nuclear Education
  14. Nuclear Outreach
  15. Nuclear Policy
  16. International Cooperation
  17. Nuclear Nonproliferation
  18. Nuclear Disarmament
  19. Nuclear Power Plants
  20. Nuclear Safety Systems
  21. Nuclear Emergency Planning
  22. Nuclear Regulatory Frameworks
  23. Nuclear Instrumentation and Control
  24. Nuclear Thermal-hydraulics
  25. Nuclear Fuel Fabrication
  26. Nuclear Spent Fuel Management
  27. Nuclear Fuel Cladding
  28. Nuclear Corrosion
  29. Nuclear Irradiation Effects
  30. Nuclear Structural Materials
  31. Nuclear Environmental Impact
  32. Nuclear High-Level Waste
  33. Nuclear Low-Level Waste
  34. Nuclear Security
  35. Nuclear Decommissioning
  36. Nuclear Research Reactors
  37. Nuclear Computational Methods
  38. Nuclear Data and Benchmarking
  39. Nuclear Safety Analysis
  40. Nuclear Reactor Dynamics
  41. Nuclear Reactor Kinetics
  42. Nuclear Fuel Behavior under Irradiation
  43. Nuclear Waste Forms
  44. Nuclear Waste Transport and Storage
  45. Nuclear Energy and Climate Change
  46. Nuclear Energy Economics
  47. Nuclear Energy Policy
  48. Nuclear Energy and Sustainable Development
  49. Nuclear Energy and Energy Security
  50. Nuclear Energy and Public Health
  51. Nuclear Energy and Public Safety
  52. Nuclear Energy and Risk Communication
  • Nuclear Energy and Ethics
  1. Nuclear Energy and International Law
  2. Nuclear Energy and Diplomacy
  • Nuclear Energy and International Security
  1. Nuclear Energy and International Organizations
  2. Nuclear Energy and Multilateral Cooperation
  3. Nuclear Energy and Bilateral Cooperation
  4. Nuclear Energy and National Security
  5. Nuclear Energy and Technology Transfer
  6. Nuclear Energy and Intellectual Property
  7. Nuclear Energy and Entrepreneurship
  8. Nuclear Energy and Venture Capital
  • Nuclear Energy and Innovation
  1. Nuclear Energy and Digitalization
  • Nuclear Energy and Cybersecurity
  • Nuclear Energy and Robotics
  • Nuclear Energy and Artificial Intelligence
  1. Nuclear Energy and Internet of Things
  2. Nuclear Energy and Blockchain
  3. Nuclear Energy and Big Data
  • Nuclear Energy and Cloud Computing
  1. Nuclear Energy and Quantum Computing
  2. Nuclear Energy and High-Performance Computing
  • Nuclear Energy and Data Analytics
  1. Nuclear Energy and Machine Learning
  2. Nuclear Energy and Deep Learning
  3. Nuclear Energy and Neural Networks
  4. Nuclear Energy and Predictive Analytics
  5. Nuclear Energy and Predictive Maintenance
  6. Nuclear Energy and Robotics and Automation
  • Nuclear Energy and Industry 4.0
  1. Nuclear Energy and Smart Grids
  2. Nuclear Energy and Microgrids
  • Nuclear Energy and Distributed Generation
  1. Nuclear Energy and Renewable Energy Integration
  2. Nuclear Energy and Energy Storage
  3. Nuclear Energy and Hydrogen Production
  4. Nuclear Energy and Carbon Capture and Storage
  5. Nuclear Energy and Environmental Monitoring
  6. Nuclear Energy and Environmental Management
  • Nuclear Energy and Environmental Remediation
  1. Nuclear Energy and Environmental Impact Assessment
  2. Nuclear Energy and Ecosystem Services
  • Nuclear Energy and Biodiversity Conservation
  1. Nuclear Energy and Climate Services
  2. Nuclear Energy and Water Resources
  3. Nuclear Energy and Soil Conservation
  4. Nuclear Energy and Forest Conservation
  5. Nuclear Energy and Wildlife Conservation
  6. Nuclear Energy and Social Responsibility
  7. Nuclear Energy and Community Engagement
  8. Nuclear Energy and Indigenous Peoples' Rights
  9. Nuclear Energy and Human Rights
  10. Nuclear Energy and Sustainable Development Goals
  11. Nuclear Energy and Health Care
  12. Nuclear Energy and Medical Isotopes
  13. Nuclear Energy and Radiopharmaceuticals
  14. Nuclear Energy and Cancer Therapy
  15. Nuclear Energy and Non-Destructive Testing
  16. Nuclear Energy and Materials Science
  17. Nuclear Energy and Nanotechnology
  18. Nuclear Energy and Advanced Manufacturing
  19. Nuclear Energy and Aerospace
  20. Nuclear Energy and Defense
  21. Nuclear Energy and Security of Supply
  22. Nuclear Energy and Resource Efficiency
  23. Nuclear Energy and Circular Economy
  24. Nuclear Energy and Waste Reduction
  25. Nuclear Energy and Life Cycle Assessment
  26. Nuclear Energy and Sustainable Consumption
  27. Nuclear Energy and Sustainable Production
  28. Nuclear Energy and Eco-Design
  29. Nuclear Energy and Green Chemistry
  30. Nuclear Energy and Sustainable Agriculture
  31. Nuclear Energy and Aquaculture
  32. Nuclear Energy and Sustainable Fisheries
  33. Nuclear Energy and Food Security
  34. Nuclear Energy and Sustainable Tourism
  35. Nuclear Energy and Education for Sustainable Development
  36. Nuclear Energy and STEM Education
  37. Nuclear Energy and Lifelong Learning
  38. Nuclear Energy and Training and Capacity Building
  39. Nuclear Energy and Knowledge Management
  40. Nuclear Energy and Scientific Communication
  41. Nuclear Energy and Scientific Publishing
  42. Nuclear Energy and Intellectual Property Rights
  43. Nuclear Energy and Data Sharing
  44. Nuclear Energy and Open Access
  45. Nuclear Energy and Open Science
  46. Nuclear Energy and Research Ethics
  47. Nuclear Energy and Peer Review
  48. Nuclear Energy and Quality Assurance
  49. Nuclear Energy and Scientific Standards
  50. Nuclear Energy and Scientific Integrity
  51. Nuclear Energy and Gender Equality
  52. Nuclear Energy and Diversity and Inclusion.

Insights in Nuclear Energy, Science, and Engineering aims to provide a platform for researchers, scholars, and industry professionals to publish high-quality original research articles, review articles, case studies, and commentaries in the field of nuclear energy, science, and engineering. The journal is committed to promoting open access, making research findings widely accessible and ensuring that knowledge is disseminated without barriers.

We recognize the importance of diversity and inclusion in science and are committed to promoting gender equality and diversity in our editorial board, reviewer panel, and authorship. We believe that diversity in science is essential for driving innovation, creativity, and excellence in research, and we welcome submissions from researchers of all backgrounds and affiliations.

To ensure the quality and relevance of published research, Insights in Nuclear Energy, Science, and Engineering employs a rigorous peer-review process, in which submissions are reviewed by experts in the field. We are committed to providing timely and constructive feedback to authors, and we strive to ensure that all published research is of the highest quality and meets the highest scientific standards.

In conclusion, Insights in Nuclear Energy, Science, and Engineering is a high-quality open access journal that is committed to promoting the advancement of scientific knowledge and sustainable development in the field of nuclear energy, science, and engineering. We welcome submissions from researchers, scholars, and industry professionals from around the world and are dedicated to providing a platform for the exchange of ideas and collaboration on the challenges facing the nuclear energy industry and society as a whole. We are committed to upholding the highest ethical standards in scientific publishing and to promoting diversity and inclusion in science.