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Physics Division Internship
The Physics Division offers undergraduate and graduate students opportunities to engage in exciting learning experiences through paid student internships.
Physics internship topics span a broad range of areas, including astrophysics, planetary science, plasma science, fusion energy, optical science, and quantum science.
Interns in the Physics Division:
- Participate in hands-on research projects, including benchtop experiments, coding, and analysis
- Expand professional networks as they interact with scientists from diverse research backgrounds
- Learn about LLNL’s world-class experimental facilities
Physics internships take place throughout the year, with interns hired for the fall, spring, and summer.
Apply today
Applications for fall 2024 and winter/spring and summer 2025 are now open. To apply, visit the LLNL job search webpage and search for the following postings:
- Undergraduate students
- REF6223U, fall 2024
- REF6489Z, winter/spring 2025
- REF6487E, summer 2025
- Graduate students
- REF6224Z, fall 2024
- REF6488M, winter/spring 2025
- REF6486Q, summer 2025
Application deadlines:
- Fall postings: October 31, 2024
- Winter/spring and summer postings: January 31, 2025
Related internships
Students can also explore research areas in physics and meet our researchers by participating in related internship programs at LLNL.
National Atmospheric Release Advisory Center (NARAC)
Contact: Lee Glascoe
NARAC is a national support and resource center for planning, real-time assessment, emergency response, and detailed studies of atmospheric releases of nuclear, radiological, chemical, biological, and natural materials. NARAC provides timely and accurate atmospheric plume predictions to aid emergency preparedness and response efforts in protecting the public and the environment.
Additional information is available on the NARAC website.
National Ignition Facility (NIF)
Contact: Dayne Fratanduono
NIF houses the world’s largest and highest-energy laser. NIF’s laser beams routinely create temperatures and pressures similar to those that exist only in the cores of stars and giant planets and inside nuclear weapons. The facilities are a key element of maintaining the reliability and safety of the U.S. nuclear deterrent without full-scale testing.
Additional information is available on the NIF website.
National User Resource for Biological Accelerator Mass Spectrometry (BioAMS)
Contact: Graham Bench
BioAMS makes accelerator mass spectrometry (AMS) available to biomedical researchers who need to accurately measure very low levels of radioisotopes. BioAMS is working to enhance AMS for analysis of radioisotopes in biomedical tracer studies through development of new methods and instrumentation.
Additional information is available on the BioAMS website.
Nuclear Counting Facility (NCF)
Contact: Keenan Thomas
Located two floors below ground, with a layer of shielding materials between floors to minimize background radiation, LLNL’s Nuclear Counting Facility provides high-sensitivity radiation measurements. Its assets include gamma spectrometers, solid-state detectors, alpha and beta counting systems employing ionization gas chambers, and liquid scintillation techniques.
The facility supports research in stockpile stewardship, nonproliferation, and counterterrorism, including:
- Analyzing samples and surrogate materials in support of nuclear forensics efforts.
- Studying samples collected during underground nuclear tests, which ended in 1992.
- Determining the number of radioactive atoms produced during experiments at LLNL’s National Ignition Facility.
Work directly with leading LLNL researchers on projects in nuclear forensics, nuclear chemistry, and environmental radiochemistry.
Learn more about the summer internship in nuclear science and security.
Optical Sciences
Contact: Wim De Vries
Our experts develop x-ray adaptive optics systems and optical payloads for nano-satellites. We have explored the use of survey telescopes for dark matter research, developed algorithms and software tools for simulation of orbital space events, and implemented sensor calibration and exploitation strategies for hyperspectral airborne sensors.
Research topics spanning astrophysics, planetary science, plasma science, fusion energy, optical science, and quantum science.
Learn more about our internship in physics.
Polymer Science
Contact: James Lewicki
We maintain capabilities to synthesize, characterize, and model a broad range of polymeric materials and architectures.
Quantum Coherent Device Laboratory
Contact: Yaniv Rosen
The Quantum Coherent Device Laboratory is a state-of-the-art research environment for quantum processor unit development. Learn more on the Quantum Coherent Device Laboratory webpage.
Radiative Properties
Contact: Marilyn Schneider
Our experts determine the radiation properties of plasmas produced at laser facilities such as the National Ignition Facility, the Jupiter Laser Facility, and the electron beam ion trap. These properties range from the basic atomic physics of isolated ions to opacities and radiation flow in hot dense matter to electron-positron pair production.
Radiochemistry Facilities
Contact: Roger Henderson
LLNL’s radiochemistry research facility houses more than 50 laboratories designed specifically for experiments focused on studying radioactive isotopes and element transformation. From trace-level environmental analysis of tritium, to high-activity transuranic samples, our capabilities allow us to analyze solid, liquid, and gas samples.
Our radiochemistry labs include fume hoods and gloveboxes, as well as class-100 clean rooms for extremely sensitive chemistry and measurements.
Scanning Electron Microscopy (SEM) and Energy Dispersive X-ray Spectroscopy (EDS)
Contact: Zurong Dai
Scanning electron microscopy, energy dispersive x-ray spectroscopy, electron diffraction
Select Agent Center (SAC)
Contact: bioagent [at] lists.llnl.gov (Bioagent support)
The SAC has Biosafety Level-2, Biosafety Level-3, and Animal Biosafety Level-3 facilities. The center is registered with the Centers for Disease Control and Prevention, is Public Health Service (PHS) Assured, and is accredited by the Association for Assessment and Accreditation of Laboratory Animals, International (AAALAC).
Space Science Institute (SSI)
Contact: Megan E. Eckart
The SSI builds on Lawrence Livermore’s strengths in planetary science, astrophysics, nuclear science, optics, engineering, data science, and computing to develop high-impact projects and a mission-ready workforce.
Additional information is available on the SSI website.
X-ray Diagnostics
Contact: Stefan Hau-Reige
Our researchers use a wide range of diagnostics to measure and record experimental data. To obtain measurements needed for their cutting-edge research, our scientists have to develop new tools and continually add to their suite of diagnostic instruments.
X-ray Fluorescence Spectroscopy
Contact: Charlotte Eng
Our instruments enable bulk elemental analysis with ppm-level detection limits.