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AFRD Topics

Accelerator modeling and advanced computing, see Center for Beam Physics.
Accelerator physics theory, see Center for Beam Physics.
Advanced Light Source Accelerator Physics (with links to the Advanced Light Source Division).
Airport security with neutron analysis, see Ion Beam Technology.
All-optical accelerators, see l’OASIS Program.
Amorphous diamond and similar surface treatments, see Ion Beam Technology.
Beam cooling, see Ion Beam Technology, also Center for Beam Physics.
Beam transport (low beta), see Ion Beam Technology.
Beam transport (neutralized), see Fusion Energy Research Program.
Beam stability, see Advanced Light Source Accelerator Physics.
Bevatron, technological legacy of, see Ion Beam Technology.
Boron neutron capture therapy (BNCT), see Ion Beam Technology.
Bureau des Longitudes, see Advanced Light Source Accelerator Physics.
Cablemaking, see Superconducting Magnets
Center for Beam Physics
CIRCE (Coherent Infrared Radiation Centre), see Advanced Light Source Accelerator Physics.
Coatings, see Ion Beam Technology.
Coaxial neutron generator, see Ion Beam Technology.
Crab cavity, see Advanced Light Source Accelerator Physics; also Center for Beam Physics.
Crystallography, see Advanced Light Source Division.
Cyclotrino (miniaturized permanent-magnet cyclotron), see Ion Beam Technology.
Damping rings (e.g., for the International Linear Collider), see Center for Beam Physics.
Drift compression, see Fusion Energy Research.
Diamond and diamondlike thin films, see Ion Beam Technology.
Electron-cloud effect, see Center for Beam Physics.
Elliptically polarized undulators, and beam size and stability, see Advanced Light Source Accelerator Physics.
ESASE (current-enhanced self-amplified stimulated emission), see Center for Beam Physics.
Explosives detection with neutron analysis, see Ion Beam Technology.
Femtosecond x-ray pulses, see l’OASIS Program.
Final focus, see Fusion Energy Research.
Flat-panel displays, see Ion Beam Technology.
Forensic examination of specimens with x-ray techniques for elemental and spatial microcharacterization, see Advanced Light Source Division.
Free electron laser, see Center for Beam Physics.
Fusion Energy Research Program
Future x-ray and synchrotron-light sources, see Center for Beam Physics; also Advanced Light Source Accelerator Physics.
Front-end systems, see Ion Beam Technology.
Heat loads, extreme, engineering for, see Advanced Light Source Division; also PEP-II.
HCX (High Current Experiment), see Fusion Energy Research.
High-energy-density physics, see Fusion Energy Research Program.
Ion Beam Technology Program.
IBX (Integrated Beam Experiment), see Fusion Energy Research.
IFE (inertial fusion energy), see Fusion Energy Research.
Induction accelerators, see Fusion Energy Research.
Infrared, see l’OASIS Program (intense pulses generated by coherent emission); see also Advanced Light Source Division.
Insertion device (large precision permanent-magnet array for synchrotron radiation), see Advanced Light Source Division.
ILC (International Linear Collider), see Center for Beam Physics.
Ion implantation, see Ion Beam Technology.
Ion sources, see Ion Beam Technology.
ITER (International Thermonuclear Experimental Reactor), magnets for, see Superconducting Magnets.
LHC (Large Hadron Collider), magnets for, see Superconducting Magnets.
LHC (Large Hadron Collider), other systems and studies for, see Center for Beam Physics.
l’OASIS Program (Laser Optics and Accelerator Systems Integrated Studies)
Low-energy beam transport, see Ion Beam Technology.
Low-level radiofrequency (LLRF) controls, see Ion Beam Technology.
Magnetic resonance imaging, see Superconducting Magnets.
Magnetohydrodynamics, see Superconducting Magnets.
Magnets, see Superconducting Magnets or Advanced Light Source Division.
Maps and control systems, see Advanced Light Source Accelerator Physics.
MBE-4 (Multiple Beam Experiment), see Fusion Energy Research.
Metglas, see Fusion Energy Research.
MEVVA (Metal Vapor Vacuum Arc) ion source, see Ion Beam Technology.
Microscopy, see Advanced Light Source Division.
Mine detection with thermal neutron analysis, see Ion Beam Technology.
Multilayers, see Ion Beam Technology, also Advanced Light Source Division.
Muon colliders and neutrino factories, see Center for Beam Physics.
NTX (Neutralized Transport Experiment), see Fusion Energy Research.
Neutrino factories and muon colliders, see Center for Beam Physics.
Neutrons, generation and applications of, see Ion Beam Technology.
NLC (Next Linear Collider; supplanted by ILC), see Center for Beam Physics.
Nuclear magnetic resonance, see Superconducting Magnets.
Numerical modeling, see Center for Beam Physics.
PEP-II "B factory" project
Optical accelerators, see l’OASIS Program.
Optics for ultraviolet light and x-rays, see Advanced Light Source Division.
Permanent magnets, see Advanced Light Source Division; also Engineering Division.
AFRD organization chart.
Plasma assisted chemical vapor deposition (PACVD), see Ion Beam Technology.
Plasma sources, see Ion Beam Technology.
Protein crystallography, see Advanced Light Source Division.
Proton therapy, see Ion Beam Technology.
Pulsed fast-neutron analysis, see Ion Beam Technology.
Quantum computing, technology for, see Ion Beam Technology.
Radiofrequency quadrupoles (RFQs), see Ion Beam Technology.
Radiotherapy/radiosurgery, see Proton therapy.
RTA (Relativistic-klystron Two-beam Accelerator), see Ion Beam Technology.
Semiconductor inspection with x-rays, see Advanced Light Source Division.
Semiconductor ion implantation, see Ion Beam Technology.
Semiconductor charge neutralization, see Ion Beam Technology.
Single-Beam Transport Experiment (SBTE), see Fusion Energy Research.
Spectromicroscopy, see Advanced Light Source Division.
Structural biology, see Advanced Light Source Division.
Sub-picosecond electron bunches, see l’OASIS Program.
Subsurface logging with neutrons, see Ion Beam Technology.
"Superbends," see Advanced Light Source Accelerator Physics; also Superconducting Magnets.
Surface modification, see Ion Beam Technology.
Superconducting Magnet Program
Synchrotron light, see Advanced Light Source Division.
Terahertz radiation, see l’OASIS Program.
Thin film deposition, see Ion Beam Technology.
Thomson scattering for ultrashort X-ray pulses, see l’OASIS Program.
Titanium nitride ion implantation, see Ion Beam Technology.
Top-off injection, see Advanced Light Source Accelerator Physics.
Two-Beam Accelerator, see Ion Beam Technology.
Ultraviolet light, see Advanced Light Source Division.
Undulator (large precision permanent-magnet array for synchrotron radiation), see Advanced Light Source Division.
Upgrade plan for ALS, see Advanced Light Source Accelerator Physics.
USLHC (US collaboration for the Large Hadron Collider), see Superconducting Magnets; also Center for Beam Physics.
VORPAL computer code, uses of, see l’OASIS Program.
Wakefield accelerators, see l’OASIS Program.
Wiggler (large precision permanent-magnet array for synchrotron radiation), see Advanced Light Source Division.
X-rays, see Advanced Light Source Division.

The Berkeley Lab Technology Transfer Department website is a good place to learn about the many other capabilities, licensable technologies, and opportunities for cooperative work at one of the most diverse of the national laboratories.

Joe Chew is responsible for this WWW document. Christine Celata is the cognizant supervisor. To report technical problems, e-mail the www-afrd webmaster.

Major update 1 December 2005.