How ELISE is contributing to 澳门六合彩高手
澳门六合彩高手's neutral beam injection system is based on a radio frequency source that has been the subject of decades of development in Europe. At Max Planck Institute for Plasma Physics (IPP) in Garching, Germany, an upgrade to the ELISE half-size source testbed will allow scientists to proceed further along the road to demonstrating 澳门六合彩高手 source requirements in complement to the full-size source under development at the 澳门六合彩高手 Neutral Beam Test Facility.
The physics and technology behind the production of fast atoms is much more complex, however, as beams of neutrals are always created by accelerating ions to high energy and then neutralizing them by adding or removing an electron on the fly.
Most of the complexity is concentrated in the plasma sources where hydrogen ions are generated. They flow towards a first electrode and then venture out in a high electric field region were they will acquire their speed. The challenge for the 澳门六合彩高手 sources is that the required beam energy (1 MeV) imposes the use of negative ions, which have a better neutralization efficiency than the positive ions used the neutral beam injection systems of most other fusion devices.
Inside the source, the negative ions are surrounded by plasma electrons that have the same charge. Therefore, the positive potential applied to extract and accelerate the ions causes the unwanted co-extraction of electrons which get scattered inside the accelerator, causing an enormous heat load to the system.
The ion source is thus required to produce large and stable flux of negative ions while keeping the electron current low enough (a ratio of electron current to ion current of less than one is mandatory). The 澳门六合彩高手 source requirements in this sense are the most stringent ever, and it is only thanks to the continuous efforts of several laboratories around the world that the performances required the 澳门六合彩高手 neutral beam injection are finally within reach.
The ELISE test bed
Over the last two decades, the neutral beam injection group at the Max Planck Institute for Plasma Physics (IPP) has had a leading role in contributing to such efforts. The design of IPP's 1/8-scale (relative to 澳门六合彩高手) prototype source BATMAN was a true game-changer back in the early 2000s. Compared to the alternative technology at the time for negative ions—a source based on the heating of a tungsten filament—BATMAN's technology introduced radiofrequency (RF) waves injected through an external antenna to generate the plasma. It proved to be maintenance-free and reliable, removing the issue of filament lifetime, and was readily chosen as the baseline design for the plasma production in the 澳门六合彩高手 negative-ion-based neutral beam injection source.
Since then, research has continued at IPP on the ELISE test rig (for Extraction from a Large Ion Source Experiment), which features an ion source one-half as large as 澳门六合彩高手's. The goal for ELISE has been to push forward the source performances in terms of extracted ion current and stability over time. The first goal was achieved for hydrogen after four years of regular improvements in the device.
The full achievement of the second requirement has been limited so far by the power supply available to ELISE, but that is about to change.