Add to ORKGTo achieve phase locked injection of short electron bunches in a plasma beatwave accelerator, the Neptune Laboratory will utilize microbunching in an FEL or IFEL system. These systems require terahertz (THz) seed radiation on the order of 10 kW for the FEL and 10 MW for the IFEL bunchers. We report results of experiments on THz generation using nonlinear frequency mixing of CO2 laser lines in GaAs. A two-wavelength laser beam was split and sent onto a 2.5 cm long GaAs crystal cut for noncollinear phase matching. Low power measurements achieved ~1 W of 340 µm radiation using 200 ns CO2 pump pulses with wavelengths 10.3µm and 10.6µm. We also demonstrated tunability of difference frequency radiation, producing 240µm by mixing two different CO2...
Laser technology has seen significant development since its inception in 1960. After the first exper...
Development of compact electron accelerators and free-electron lasers requires novel acceleration sc...
A coherent optical THz (1.5 THz, 200 µm) source was developed based on pulsed, near IR, fiber lasers...
Seeded FEL/IFEL techniques can be used for modulation of a relativistic electron beam longitudinally...
In order to obtain monoenergetic acceleration of electrons, phase-locked injection using electron mi...
Abstract. For monoenergetic acceleration of electrons, the injected particles need to be bunched wit...
Free-Electron Laser in the THz range can be used to generate high output power radiation or to modul...
The lack of a high-power, relatively low-cost and compact terahertz (THz) source in the range 0.3-3x...
A comprehensive analysis is presented that describes amplification of a seed THz pulse in a single-p...
Abstract To obtain a high quality electron beam with small energy spread in the laser driven plasma ...
Abstract. Seeded high-gain FELs, which can generate very powerful radiation pulses in a relatively c...
The European XFEL has planned to perform pump-probe experiments by using its x-ray pulses and THz pu...
The terahertz (THz) region of the electromagnetic spectrum is attracting interest for a broad range ...
$^{a}$E. R. Brown, K. A. McIntosh, K. B. Nichols and C. L. Dennis, Appl. Phys. Lett. 66, 285 (1995)....
The generation of THz-frequency radiation via nonlinear parametric frequency down-conversion has lon...
Laser technology has seen significant development since its inception in 1960. After the first exper...
Development of compact electron accelerators and free-electron lasers requires novel acceleration sc...
A coherent optical THz (1.5 THz, 200 µm) source was developed based on pulsed, near IR, fiber lasers...
Seeded FEL/IFEL techniques can be used for modulation of a relativistic electron beam longitudinally...
In order to obtain monoenergetic acceleration of electrons, phase-locked injection using electron mi...
Abstract. For monoenergetic acceleration of electrons, the injected particles need to be bunched wit...
Free-Electron Laser in the THz range can be used to generate high output power radiation or to modul...
The lack of a high-power, relatively low-cost and compact terahertz (THz) source in the range 0.3-3x...
A comprehensive analysis is presented that describes amplification of a seed THz pulse in a single-p...
Abstract To obtain a high quality electron beam with small energy spread in the laser driven plasma ...
Abstract. Seeded high-gain FELs, which can generate very powerful radiation pulses in a relatively c...
The European XFEL has planned to perform pump-probe experiments by using its x-ray pulses and THz pu...
The terahertz (THz) region of the electromagnetic spectrum is attracting interest for a broad range ...
$^{a}$E. R. Brown, K. A. McIntosh, K. B. Nichols and C. L. Dennis, Appl. Phys. Lett. 66, 285 (1995)....
The generation of THz-frequency radiation via nonlinear parametric frequency down-conversion has lon...
Laser technology has seen significant development since its inception in 1960. After the first exper...
Development of compact electron accelerators and free-electron lasers requires novel acceleration sc...
A coherent optical THz (1.5 THz, 200 µm) source was developed based on pulsed, near IR, fiber lasers...