Kotaki et al., 2009 - Google Patents
Electron optical injection with head-on and countercrossing colliding laser pulsesKotaki et al., 2009
- Document ID
- 16151277043318706463
- Author
- Kotaki H
- Daito I
- Kando M
- Hayashi Y
- Kawase K
- Kameshima T
- Fukuda Y
- Homma T
- Ma J
- Chen L
- Esirkepov T
- Pirozhkov A
- Koga J
- Faenov A
- Pikuz T
- Kiriyama H
- Okada H
- Shimomura T
- Nakai Y
- Tanoue M
- Sasao H
- Wakai D
- Matsuura H
- Kondo S
- Kanazawa S
- Sugiyama A
- Daido <
- Bulanov S
- Publication year
- Publication venue
- Physical review letters
External Links
Snippet
A high stability electron bunch is generated by laser wakefield acceleration with the help of a colliding laser pulse. The wakefield is generated by a laser pulse; the second laser pulse collides with the first pulse at 180° and at 135° realizing optical injection of an electron …
- 238000002347 injection 0 title abstract description 47
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Kotaki et al. | Electron optical injection with head-on and countercrossing colliding laser pulses | |
| Khrennikov et al. | Tunable all-optical quasimonochromatic thomson x-ray source in the nonlinear regime | |
| Kneip et al. | Near-GeV Acceleration of Electrons by a Nonlinear Plasma Wave Driven<? format?> by a Self-Guided Laser Pulse | |
| Ter-Avetisyan et al. | Quasimonoenergetic deuteron bursts produced by ultraintense laser pulses | |
| Ray et al. | Ion-energy dependence of asymmetric dissociation of D 2 by a two-color laser field | |
| Davoine et al. | Cold optical injection producing monoenergetic, multi-GeV electron bunches | |
| Glinec et al. | Direct observation of betatron oscillations in a laser-plasma electron accelerator | |
| Burza et al. | Laser wakefield acceleration using wire produced double density ramps | |
| Mao et al. | Spectrally peaked electron beams produced via surface guiding and acceleration in femtosecond laser-solid interactions | |
| Kuschel et al. | Controlling the self-injection threshold in laser wakefield accelerators | |
| Zaïm et al. | Interaction of ultraintense radially-polarized laser pulses with plasma mirrors | |
| Fubiani et al. | Improvement of electron beam quality in optical injection schemes using negative plasma density gradients | |
| Couprie et al. | The LUNEX5 project in France | |
| Sokollik et al. | Directional laser-driven ion acceleration from microspheres | |
| Chen et al. | Transient relativistic plasma grating to tailor high-power laser fields, wakefield plasma waves, and electron injection | |
| Zhang et al. | Laser wakefield acceleration using mid-infrared laser pulses | |
| Rezaei-Pandari et al. | Laser wakefield electron acceleration with polarization-dependent ionization injection | |
| Sima et al. | Local electron mean energy profile of positive primary streamer discharge with pin-plate electrodes in oxygen—Nitrogen mixtures | |
| Kotaki et al. | Improvement of the quality and stability of electron bunch using countercrossing laser beam | |
| Miura et al. | Stable generation of quasi-monoenergetic electron beams with laser-driven plasma-based acceleration by suppressing nanosecond prepulse | |
| Geddes et al. | High energy, low energy spread electron bunches produced via colliding pulse injection | |
| Kotaki et al. | Stable High‐Quality Electron Bunch Generation via Counter‐Crossing Injection | |
| Mirzanejhad et al. | Electron injection in laser wake-field acceleration by using near critical layers | |
| Hafz | Utilizing asymmetric laser pulses for the generation of high-quality wakefield-accelerated electron beams | |
| Kotaki et al. | Counter-crossing injection for stable high-quality electron beam generation via laser-plasma interaction |