High Power Laser Science and Engineering, Volume. 7, Issue 2, 02000e22(2019)
Maximizing magnetic field generation in high power laser–solid interactions Editors' Pick
Fig. 1. An illustrated experimental setup of strong magnetic field generation by interaction of an ultra-short relativistic optical laser pulse with solid matter, probed by an XFEL via Faraday rotation.
Fig. 2. Two-dimensional spatial distributions of (a) longitudinal current density
Fig. 3. The spatial distributions of self-generated magnetic field in laser irradiated solid Cu target as the preplasma scale length varies from 0 to
Fig. 4. The scaling of total laser absorption efficiency
Fig. 5. The spatial distributions of self-generated magnetic field in the cases of laser intensity and spot size at (a)
Fig. 6. The spatial distributions of the self-generated interface magnetic field at
Fig. 7. The spatial distributions of free electron density and self-generated magnetic field in a laser irradiated Cu target with
Fig. 8. The spatial distribution of magnetic field for (a) a
Fig. 9. The spatial distribution of magnetic field for two layers target (a)
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L. G. Huang, H. Takabe, T. E. Cowan. Maximizing magnetic field generation in high power laser–solid interactions[J]. High Power Laser Science and Engineering, 2019, 7(2): 02000e22
Special Issue: HIGH ENERGY DENSITY PHYSICS AND HIGH POWER LASERS
Received: Oct. 9, 2018
Accepted: Jan. 30, 2019
Published Online: Apr. 30, 2019
The Author Email: L. G. Huang (lingen.huang@hzdr.de)