Add to ORKGTwo novel techniques which produce a uniform frozen layer of deuterium-tritium on the inside surface of a glass microsphere are presented
High gain targets for inertial confinement fusion (ICF) contain a layer of deuterium-tritium (DT) ic...
A liquid hydrogen/deuterium target is used at COSY of the FZ-Juelich in the external experiments TOF...
Recent advances in the technology of fast pulsed electrical power and load design have led to growin...
We have developed processes at LLL for mass producing the high quality glass microspheres required f...
After achieving high temperature and high density compression, laser fusion research proceeded to a ...
A technique for the creation of free-standing cryogenic targets for laser-driven ion acceleration is...
Inertial confinement fusion requires the use of a uniformly thick target for best efficiency. Cryoge...
A brief discussion on the use and performance of laser microdrilling is given. The fabrication of a ...
Current cryogenic targets for laser fusion experiments consist of glass Microshell® pellets with deu...
Silicon targets enriched with hydrogen and doped with boron at high atomic concentration (1020–1022 ...
Deuterium-Deuterium fusion processes were generated by focusing the 3 TW PALS Laser on solid deutera...
The performance of triple-picket deuterium-tritium cryogenic target designs on the OMEGA Laser Syste...
Nuclear fusion is the energy source that powers the sun. For more than four decades man has sought t...
The next series of inertial fusion experiments will approach ignition conditions. To achieve suffici...
The Laboratory for Laser Energetics atternpts to create fusion energy by irradiating a fuel capsule ...
High gain targets for inertial confinement fusion (ICF) contain a layer of deuterium-tritium (DT) ic...
A liquid hydrogen/deuterium target is used at COSY of the FZ-Juelich in the external experiments TOF...
Recent advances in the technology of fast pulsed electrical power and load design have led to growin...
We have developed processes at LLL for mass producing the high quality glass microspheres required f...
After achieving high temperature and high density compression, laser fusion research proceeded to a ...
A technique for the creation of free-standing cryogenic targets for laser-driven ion acceleration is...
Inertial confinement fusion requires the use of a uniformly thick target for best efficiency. Cryoge...
A brief discussion on the use and performance of laser microdrilling is given. The fabrication of a ...
Current cryogenic targets for laser fusion experiments consist of glass Microshell® pellets with deu...
Silicon targets enriched with hydrogen and doped with boron at high atomic concentration (1020–1022 ...
Deuterium-Deuterium fusion processes were generated by focusing the 3 TW PALS Laser on solid deutera...
The performance of triple-picket deuterium-tritium cryogenic target designs on the OMEGA Laser Syste...
Nuclear fusion is the energy source that powers the sun. For more than four decades man has sought t...
The next series of inertial fusion experiments will approach ignition conditions. To achieve suffici...
The Laboratory for Laser Energetics atternpts to create fusion energy by irradiating a fuel capsule ...
High gain targets for inertial confinement fusion (ICF) contain a layer of deuterium-tritium (DT) ic...
A liquid hydrogen/deuterium target is used at COSY of the FZ-Juelich in the external experiments TOF...
Recent advances in the technology of fast pulsed electrical power and load design have led to growin...