Defense Nuclear Nonproliferation Research is a grant from the Department of Energy that funds research and education programs supporting nuclear security objectives. Administered by the National Nuclear Security Administration (NNSA), the program provides fellowships and research funding to students and principal investigators working on scientific and technical challenges in nuclear nonproliferation.

Programs include the Computational Science Graduate Fellowship for doctoral students in physical, engineering, computer, mathematical, or life sciences, and the Defense Nuclear Nonproliferation Research and Development University Program that funds university consortia.

These programs build a pipeline of trained scientists and engineers for the nuclear security workforce while advancing research at DOE national laboratories through access to high-performance computing systems and multi-disciplinary research activities.

Overview of NNSA’s programs for students and principal investigators | Department of Energy Overview of NNSA’s programs for students and principal investigators A look at the jobs, the pay, and the benefits. NNSA needs academics. Our missions are broad, and our need for fresh perspective is great.

Supporting students and university research gives us both a pipeline of talent and helps us tackle big problems in new ways. Would you like to help us strengthen and enhance our nation’s security as we take on these scientific and technical challenges in the military application of nuclear science?

NNSA has a variety of programs for students and principal investigators to take on our most pressing scientific and technical challenges in the military application of nuclear science and strengthen and enhance our nation’s security.

For principal investigators COMPUTATIONAL SCIENCE GRADUATE FELLOWSHIP (CSGF) Who it is for: U.S. citizens or lawful permanent residents who are undergraduate seniors, first-year graduate students, and those matriculating into a Ph. D. program (by the fall semester) who are studying physical, engineering, computer, mathematical, or life sciences.

Dates: Application deadline is the second Wednesday in January. The fellowship starts first week of September. Funding is renewable for up to four total years.

Requirements: A twelve-week onsite practicum at one of 21 DOE's National Laboratories or sites is required along with a program of study for either the Science & Engineering or Math/Computer Science track. Benefits: A yearly stipend, payment of full tuition and required fees during the appointment period (at any accredited U.S. university), an annual professional development allowance.

Funded jointly by NNSA and the DOE Office of Science, the Computational Science Graduate Fellowship fosters a community of enthusiastic and committed doctoral students, alumni, DOE/NNSA laboratory staff and various scientists who desire to have an impact on national security and energy missions while advancing their research.

This fellowship supports DOE’s and NNSA’s priorities to maintain a pipeline of scientists and engineers trained to meet specific workforce needs in computational science.

The fellowship increases collaboration between DOE/NNSA laboratories and universities by enhancing the fellows’ research experience at the National Laboratories via access to high-performance computing systems and exposing them to the broader, multi-disciplinary research activities at the laboratories. Learn more about the Computational Science Graduate Fellowship.

DEFENSE NUCLEAR NONPROLIFERATION RESEARCH & DEVELOPMENT UNIVERSITY PROGRAM NNSA’s Office of Defense Nuclear Nonproliferation Research and Development funds research to support nuclear security objectives and provide a conduit to migrate top talent toward technical applications in nuclear security. Each consortium is made up of different participating schools and each has its own standards for fellowships.

Nuclear Science and Security Consortium The Nuclear Science and Security Consortium (NSSC) develops the next generation of nuclear scientists and engineers while performing research spanning basic aspects of new technology and methods to more applied efforts directly supporting nuclear nonproliferation goals.

The NSSC includes more than 150 professors, researchers, and students at seven major universities and five National Laboratories advancing the technical state-of-the-art in nuclear science and engineering while developing a new wave of nuclear security experts. Nuclear Science and Security Consortium (berkeley.

edu) The Consortium for Nuclear Forensics The Consortium for Nuclear Forensics (CNF) has the mission to contribute to important research fields with nuclear forensics and to develop future nuclear forensics scientists and engineers. CNF has five main research areas: Rapid Turnaround Forensics Advanced Analytical Methods Ultrasensitive Measurement Consortium for Nuclear Forensics (nuclearforensicsconsortium.

org) Consortium for Enabling Technologies & Innovation 2. 0 ETI 2. 0 team works to advance technologies across three core disciplines: data science and digital technologies in nuclear security and nonproliferation; precision environmental analysis for enhanced nuclear nonproliferation vigilance and emergency response; and emerging technologies.

The primary thrust areas will be advanced by cross-cutting research projects in novel radiation detectors and algorithms and testbeds and digital twins. Collaboration across a robust range of disciplines will ensure our capability to develop both professionals and enabling technologies for critical nuclear nonproliferation missions that will support NNSA, national laboratories, and the other NNSA Consortia efforts.

Consortium for Enabling Technologies & Innovation 2. 0 (GATECH.

EDU) Enabling Capabilities in Technology Consortium DNN’s Enabling Capabilities in Technology (TECH) consortium has been formed to create new scientific knowledge in areas critical to DNN’s nuclear nonproliferation mission, to apply new knowledge toward the creation of new nuclear nonproliferation capabilities, and to generate the human capital needed for the DOE/NNSA laboratories to address emerging challenges in nuclear nonproliferation.

Tech has five research areas: Earth, Environmental, Atmospheric, and Space Science Radiochemistry, nuclear chemistry, and nuclear chemical engineering Advanced nuclear fuel and reactor systems engineering Detection, characterization, and response methodologies and tools Data science for nuclear nonproliferation Enabling Capabilities in Technology Consortium (utk.

edu) LABORATORY RESIDENCY GRADUATE FELLOWSHIP (LRGF) Who it is for: U.S. citizens in their second first (or later) year of doctoral work who have at least 18 months remaining in their PhD studies in one of the supported fields of study at the time they apply. Dates: Applications are due third Wednesday in March (opens in November). Awardees will be notified by the end of April.

Fellowship begins in September. Fellows must complete a minimum of two 12-week laboratory residencies at one of four approved NNSA facilities. Lab mentor letter, advisor letter, additional reference letters, including one that addresses the university's residency policy regarding off-campus experiences of up to six months.

The Laboratory Residency Graduate Fellowship focuses on fields of study that address complex science and engineering problems critical to stewardship science. The fellowship promotes interactive relationships connecting laboratory scientists, professors, and students and fosters collaborative research relationships.

These collaborations, combined with unique facility exposure, are expected to lead to employment opportunities and advancement within the labs. Current areas of study supported by the fellowship are: engineering and applied sciences, physics, materials science, and mathematical and computational science. The program also provides a yearly stipend, tuition fee coverage, and academic allowance.

Learn more about the Laboratory Residency Graduate Fellowship. MINORITY SERVING INSTITUTIONS INTERNSHIP PROGRAM (MSIIP) Who it is for: Undergraduate and graduate students enrolled at a Minority Serving Institution at the time of application. Participants must be a U.S. Citizen and be 18 years old by the appointment start date.

Dates: Application deadline is Oct. 27 (opens in August). Summer internship lasts for 12 weeks from June-August.

Yearlong internships run from June to the following May. Have and maintain a cumulative GPA of 3. 0 on a 4.

0 scale. Be able to commit to the duration of their internship program: Summer Only: 12 weeks, 40 hours per week Yearlong: 12-months, 40 hours per week during summer, part-time (10-32 hours per week) during the academic year. Have coverage under a health insurance plan before arriving at the appointment site and maintain coverage during the appointment.

The Minority Serving Institutions Internship Program (MSIIP) provides paid opportunities for undergraduate and graduate students enrolled at Minority Serving Institutions pursuing degrees complementing NNSA's missions. MSIIP offers summer or yearlong internship opportunities with the U.S. Department of Energy and NNSA headquarters offices, national laboratories, and site offices.

Internships involve projects focused on engineering, science, research, technology, policy, business, and government relations. Participants will develop the experience needed to "jump-start" their careers and potential for future opportunities within the federal government. Interns will be mentored by leading scientists, engineers, and other top professionals to develop professional skills and enhance leadership capabilities.

Learn more about the Minority Serving Institutions Internship Program (MSIIP). MINORITY SERVING INSTITUTION PARTNERSHIP PROGRAM (MSIPP) Who it is for: Students at an eligible institution earning an associate, undergraduate or graduate degree with a focus in STEM. Qualifying students must be U.S. citizens or permanent residents and attend one of the partner schools.

The mission of the Minority Serving Institution Partnership Program (MSIPP) is to create and support a sustainable career pathway that prepares talented students to make immediate and significant contributions to the Nuclear Security Enterprise (NSE). MSIPP develops strategic partnerships between Minority Serving Institutions (MSIs) and the NSE. Application deadlines and details are set by individual institutions.

NNSA GRADUATE FELLOWSHIP PROGRAM (NGFP) A 1-year salaried real-world experience in national security and nonproliferation. Who it is for: Current or recent graduate students who are U.S. citizens with a career interest in national security. Dates: Application deadline: Oct.

4 (opens in August). Fellowships begin in June and last one year. Must be eligible for security clearance.

Currently enrolled in a graduate degree program or have graduated within 18 months of the application deadline. Have a cumulative 3. 0/4.

0 grade point average in graduate degree program. Available to work full time for duration of one-year fellowship. The NGFP cultivates future leaders for the Nuclear Security Enterprise.

The program hires dozens of fellows per year to support diverse missions, programs, and field offices across the NNSA enterprise (plus limited placements with the Department of State and the DOE Office of Intelligence and Counterintelligence). While individual assignments vary by year, fellows work alongside leading experts at NNSA to gain real-world experience supporting the nation’s nuclear security missions.

NGFP fellows receive an annual salary and benefits; a hiring incentive; training, professional development, and networking opportunities; tuition reimbursement (criteria apply); and a travel/training allotment. Learn more about the NNSA Graduate Fellowship Program (NGFP). NUCLEAR NONPROLIFERATION INTERNATIONAL SAFEGUARDS (NNIS) GRADUATE FELLOWSHIP PROGRAM Who it is for: U.S. citizens pursuing a Ph.

D. at a participating university who are conducting research relevant to international nuclear safeguards. Dates: Applications are due in mid-February (opens in November).

Fellowship begins with the academic year and lasts 12 months (it can be extended to last up to a total of 48 months). Requirements: Fellows must participate in at least one practicum for at least three months at a designated DOE/NNSA facility and may be required to apply for security clearance.

Benefits: Financial support for students The Nuclear Nonproliferation International Safeguards Fellowship is dedicated to fostering the development of policies, concepts, technologies, expertise, infrastructure, and human capital necessary to sustain and enhance international nuclear safeguards.

It provides financial support for students pursuing technical doctoral research relevant to the field of international safeguards, including tuition, a monthly stipend, and travel reimbursement. International safeguards are technical measures that the International Atomic Energy Agency uses to verify that countries are in compliance with their legally binding agreements not to develop nuclear weapons.

( Learn more about international safeguards. ) Learn more about the Nuclear Nonproliferation International Safeguards Fellowship. PNNL INTRODUCTION TO ARMS CONTROL COURSE Who it is for: The course is open to early career participants who have five or fewer years of experience in nuclear monitoring and verification.

Requirements: Applicants must identify as one of the following: Non-governmental organization employee An employee of the U.S. government Full-time employee from a national lab, site, or plant Arms Control Course | PNNL RICKOVER FELLOWSHIP PROGRAM (RFP) IN NUCLEAR ENGINEERING Who it is for: U.S. citizens who are Ph. D. graduate students pursuing studies in the topics of interest Dates: Application deadline: Jan.

31 (opens in November). Fellowship begins Sept. 1 and commitment lasts a minimum of one year Applicants must be capable of obtaining and maintain a DOE security clearance.

Fellows must complete one 10-week practicum at Bettis Atomic Power Laboratory in Pittsburgh, Pennsylvania, or the Knolls Atomic Power Laboratory in Schenectady, New York. Fellows incur one month of obligated service at Bettis or Knolls for every two months of financial support they receive, with a minimum work commitment of 12 months.

The RFP recruits students with critical skills to work for the Naval Nuclear Propulsion Program (also known as Naval Reactors) at Bettis or Knolls. It financially supports up to 15 fellows at a time, paying tuition costs and a monthly living stipend. Current topics of interest are: nuclear reactor physics; thermal hydraulics and computational fluid dynamics; materials science; shielding; acoustic technology; and artificial intelligence.

Learn more about the Rickover Fellowship Program.

SAVANNAH RIVER SITE COMMUNITY REUSE ORGANIZATION (SRSCRO) WORKFORCE OPPORTUNITIES IN REGIONAL CAREERS (WORC) PROGRAM Who it is for: Undergraduates working to improve skills in targeted subjects who attend one of the following schools: Georgia: Augusta Technical College and Augusta University South Carolina: Aiken Technical College, Allen University, Benedict College, Claflin University, Clinton College, Denmark Technical School, Morris College, South Carolina State University, University of South Carolina Aiken, University of South Carolina Salkehatchie, and Voorhees College Dates: Based on each school’s academic calendar Requirements: Based on each school’s criteria Benefits: Based on school’s criteria but includes potential student scholarships.

WORC and WORC II programs, focused on the Savannah River Site, aim to prepare the local workforce for careers at the site – and other local employers – by building the skills, experience, certifications, and proficiency across several scientific, engineering, technical, craft, and business support disciplines. Applicants who would like to pursue these grants should apply through their schools.

STEWARDSHIP SCIENCE GRADUATE FELLOWSHIP (SSGF) Who it is for: U.S. citizens who are full-time senior undergraduate students or first- or second-year graduate students Dates. Applications are due the first Wednesday in January (opens in October). Awardees are notified by early April.

Fellows must complete a 12-week laboratory residency at one of four approved NNSA facilities. Benefits: A yearly stipend, payment of full tuition and required fees during the appointment period (at any accredited U.S. university), an annual academic allowance for research and professional development expenses.

The Stewardship Science Graduate Fellowship is a competitive fellowship that provides professional development opportunities to students pursuing doctoral degrees studying properties of materials under extreme conditions, nuclear science, and high energy density physics. It provides a yearly stipend, tuition fees, and an academic allowance, unique research opportunities, mentoring and a strong connection with the National Laboratories.

Each SSGF fellow must participate in a 12-week research practicum at one of the National Laboratories, which gives them the opportunity to work with leading experts in the field and provides hands-on experience at cutting-edge experimental facilities. Learn more about the Stewardship Science Graduate Fellowship.

HIGH ENERGY DENSITY LABORATORY PLASMAS (HEDLP) PROGRAM The HEDLP Program is designed to facilitate the study of laboratory high energy-density (HED) plasma physics by funding academic research of ionized matter in laboratory experiments. The program has three primary elements: individual investigator research grants, centers of excellence, and the Facility Access Program.

Individual Investigator Grants: NNSA’s Defense Programs partner with DOE's Office of Science to issue an annual joint solicitation for HED Laboratory Plasmas research. Competitively awarded research grants are selected through the joint solicitation. Centers of Excellence: HED Centers of Excellence are competitively selected through the Stewardship Science Academic Alliances Centers process.

They are integrated multi-institutional collaborative efforts focused on a central problem or theme. The Centers work closely with Nuclear Security Enterprise scientists and maintain a core set of specific academic expertise.

Facility Access Program: The facility access program was created to support recruitment and connection with the National Laboratories by providing travel reimbursement for principal investigators, students, postdocs, and faculty who receive shot time at an NNSA facility for travel to the facility.

This experience will further research related to the Stockpile Stewardship Program, provide an educational experience with hands-on fielding of experiments on a large-scale facility, and enhance students’ interest and recruitment to NNSA laboratories by providing travel support to facilities.

The travelers must have been selected to receive facility experimental time at an NNSA facility through a competitive open fundamental science review. The travelers must be approved by NNSA, as preference will be given to applicants without current NNSA research funding. High Energy Density Laboratory Program Funding Opportunity Announcements are posted on grants.

gov. High Energy Density Laboratory Plasmas (nnsa-ap. us) MINORITY SERVING INSTITUTION PARTNERSHIP PROGRAM (MSIPP) MINORITY SERVING INSTITUTION PARTNERSHIP PROGRAM (MSIPP) Applications are accepted from eligible institutions . Successful applicants have focused on broad STEM areas including advanced manufacturing, cybersecurity, engineering, and nuclear security.

The MSIPP program is designed to increase participation from the targeted schools and build a pipeline of talent to the Nuclear Security Enterprise and other sectors. A wide variety of STEM-related topic areas are supported at schools in the program. When MSIPP applications are open, they will appear on grants.

gov. Search for MSIPP. PREDICTIVE SCIENCE ACADEMIC ALLIANCE PROGRAM (PSAAP) The Predictive Science Academic Alliance Program (PSAAP) engages with leading U.S. universities, focusing on ways to solve open science and engineering application problems. Key focus areas include: Discipline-focused research needed to further predictive science and enabled by effective exascale computing technologies.

Developing and demonstrating technologies and methodologies to support effective exascale computing in the context of science/engineering applications. Predictive Science based on verification and validation and uncertainty quantification (V&V/UQ) for large-scale simulations. PSAAP is relevant to a variety of NNSA activities.

A key component in the program is computational science research that contributes to effective use of emerging architectures, systems, and technologies. The program consists of the following types of Centers: Multi-disciplinary Simulation Centers, which focus on scalable application simulations, targeting large-scale, integrated multidisciplinary problems.

Single-Discipline Centers, which focus on scalable application simulation for targeting a broad single science or engineering discipline. Focused Investigatory Centers, which are tightly focused on a specific research topic of interest to NNSA’s mission, in either a science/engineering discipline or an extreme scale enabling technology.

Learn more about the Predictive Science Academic Alliance Program STEWARDSHIP SCIENCE ACADEMIC ALLIANCES (SSAA) PROGRAM The Stewardship Science Academic Alliances (SSAA) program emphasizes academic research in technical areas related to NNSA’s Stockpile Stewardship mission, including material properties under extreme conditions, hydrodynamics, low energy nuclear science, radiochemistry, and high energy density physics.

Research is done through both collaborative centers of excellence and individual investigator research projects. The program supports research at approximately 80 universities and the training of more than 350 undergraduate, graduate students, and post-doctoral researchers each year.

A key element of both Centers of Excellence and individual investigator awards is the connection of students with the Nuclear Security Enterprise labs, plants, and sites. These opportunities are focused in technical fields critical to stewardship science, building a field of talented researchers and committed doctoral students – sharing a common desire to advance science while impacting national security.

The funding opportunity announcements for SSAA grants are every This was an empty link: three years three years . Funding opportunity announcements for SSAA Centers of Excellence occur roughly every five years. Stewardship Science Academic Alliances (nnsa-ap.

us)