Compact cryogenic source of periodic hydrogen and argon droplet beams for relativistic laser-plasma generation
Abstract
We present a cryogenic source of periodic streams of micrometer-sized hydrogen and argon droplets as ideal mass-limited target systems for fundamental intense laser-driven plasma applications. The highly compact design combined with a high temporal and spatial droplet stability makes our injector ideally suited for experiments using state-of-the-art high-power lasers in which a precise synchronization between the laser pulses and the droplets is mandatory. We show this by irradiating argon droplets with multi-terawatt pulses.
- Publication:
-
Review of Scientific Instruments
- Pub Date:
- February 2012
- DOI:
- 10.1063/1.3681940
- Bibcode:
- 2012RScI...83b5102F
- Keywords:
-
- argon;
- cryogenics;
- drops;
- hydrogen;
- plasma applications;
- plasma instability;
- plasma light propagation;
- plasma sources;
- relativistic plasmas;
- synchronisation;
- 52.38.Dx;
- 52.35.Qz;
- 52.27.Ny;
- 52.50.Dg;
- 52.77.-j;
- Laser light absorption in plasmas;
- Microinstabilities;
- Relativistic plasmas;
- Plasma sources;
- Plasma applications