- Olkhovskaya, OG;
- Bagdasarov, GA;
- Bobrova, NA;
- Gasilov, VA;
- Goncalves, LVN;
- Lazzarini, CM;
- Nevrkla, M;
- Grittani, G;
- Bulanov, SS;
- Gonsalves, AJ;
- Schroeder, CB;
- Esarey, E;
- Leemans, WP;
- Sasorov, PV;
- Bulanov, SV;
- Korn, G
The plasma channel formation in the focus of a knife-like nanosecond laser pulse irradiating a gas target is studied theoretically, and in gas-dynamics computer simulations. The distribution of the electromagnetic field in the focus region, obtained analytically, is used to calculate the energy deposition in the plasma, which then is implemented in the magnetohydrodynamic computer code. The modelling of the channel evolution shows that the plasma profile, which can guide the laser pulse, is formed by the tightly focused short knife-like lasers. The results of the simulations show that a proper choice of the convergence angle of a knife-like laser beam (determined by the focal length of the last cylindrical lens), and laser pulse duration may provide a sufficient degree of azimuthal symmetry of the formed plasma channel.