Add to ORKGWe have developed PW(0.5ps/500J) laser system to demonstrate fast heating of imploded core plasmas using a hollow cone shell target. Significant enhancement of thermal neutron yield has been realized with PW-laser heating, confirming that the high heating efficiency is maintained as the short-pulse laser power is substantially increased to near equivalent power to the ignition condition. The efficient heating could be caused by the efficient guiding of heating pulse with the hollow cone and self-organized relativistic electron transport. According to the experimental results, we are now developing a 10kJ-PW laser system to study the ignition-equivalent temperature heating physics
The FIREX-1 project, the goal of which is to demonstrate fuel heating up to 5 keV by fast ignition s...
Anomalous resistivity for hot electrons passing through a dense core plasma is studied for fast igni...
"Since the approval of the first phase of Fast Ignition Realization Experiment (FIREX-I), we have de...
We have developed PW(0.5ps/500J) laser system to demonstrate fast heating of imploded core plasmas u...
We have developed a PW (0.5 ps/500J) laser system to demonstrate fast heating of imploded core plasm...
We have developed a PW (0.5 ps/500 J) laser system to demonstrate fast heating of imploded core plas...
Recent progress in the physics of fast ignition of fusion targets is reviewed here. Fundamental stud...
The process of fast ignition (FI) using various laser systems was analyzed. A Petta watt (PW) laser ...
We have studied fast heating of highly compressed plasmas using multi 100 TW laser light. Efficient ...
Modern high-power lasers can generate extreme states of matter that are relevant to astrophysics, eq...
On the fast ignition integrated experiments for cone-guided CD targets with GekkoXII+PW laser system...
A model of energy gain induced by fast ignition of thermonuclear burn in compressed deuterium-tritiu...
The reentrant cone approach to Fast Ignition, an advanced Inertial Confinement Fusion scheme, remain...
The reentrant cone approach to Fast Ignition, an advanced Inertial Confinement Fusion scheme, remain...
In this work, unique particle-in-cell simulations to understand the relativistic electron beam therm...
The FIREX-1 project, the goal of which is to demonstrate fuel heating up to 5 keV by fast ignition s...
Anomalous resistivity for hot electrons passing through a dense core plasma is studied for fast igni...
"Since the approval of the first phase of Fast Ignition Realization Experiment (FIREX-I), we have de...
We have developed PW(0.5ps/500J) laser system to demonstrate fast heating of imploded core plasmas u...
We have developed a PW (0.5 ps/500J) laser system to demonstrate fast heating of imploded core plasm...
We have developed a PW (0.5 ps/500 J) laser system to demonstrate fast heating of imploded core plas...
Recent progress in the physics of fast ignition of fusion targets is reviewed here. Fundamental stud...
The process of fast ignition (FI) using various laser systems was analyzed. A Petta watt (PW) laser ...
We have studied fast heating of highly compressed plasmas using multi 100 TW laser light. Efficient ...
Modern high-power lasers can generate extreme states of matter that are relevant to astrophysics, eq...
On the fast ignition integrated experiments for cone-guided CD targets with GekkoXII+PW laser system...
A model of energy gain induced by fast ignition of thermonuclear burn in compressed deuterium-tritiu...
The reentrant cone approach to Fast Ignition, an advanced Inertial Confinement Fusion scheme, remain...
The reentrant cone approach to Fast Ignition, an advanced Inertial Confinement Fusion scheme, remain...
In this work, unique particle-in-cell simulations to understand the relativistic electron beam therm...
The FIREX-1 project, the goal of which is to demonstrate fuel heating up to 5 keV by fast ignition s...
Anomalous resistivity for hot electrons passing through a dense core plasma is studied for fast igni...
"Since the approval of the first phase of Fast Ignition Realization Experiment (FIREX-I), we have de...