High power laser operation with crystal fibers

“…As reported in [4], the thermal contact was responsible of 80% of the total temperature difference between the crystal center and the mount in a single-crystal fiber surrounded by thermal grease in a nonoptimized mount. The Laboratoire Charles Fabry and Fibercryst have worked together to develop an excellent metallic contact in the single-crystal fiber TARANIS modules [6].…”

“…This high value can be explained by two factors. Firstly, due to the lower brightness of the pump beam, no soft aperture mode filtering occurs, as observed previously [4]. Secondly, the cavity design was not fully optimized and we believe that the use of a larger resonant fundamental mode would result in an improvement of the beam quality.…”

“…Up to now, a maximum of 65 W of output power in continuous-wave has been demonstrated using an Yb: YAG single-crystal fiber at a pump power of 200 W at 940 nm [4]. This concept has started to reveal its potential as a femtosecond amplifier with a combination of high gain (30) and significant output power (12 W) in a very simple double-pass configuration [5].…”

250 W single-crystal fiber Yb:YAG laser

“…As reported in [4], the thermal contact was responsible of 80% of the total temperature difference between the crystal center and the mount in a single-crystal fiber surrounded by thermal grease in a nonoptimized mount. The Laboratoire Charles Fabry and Fibercryst have worked together to develop an excellent metallic contact in the single-crystal fiber TARANIS modules [6].…”

“…This high value can be explained by two factors. Firstly, due to the lower brightness of the pump beam, no soft aperture mode filtering occurs, as observed previously [4]. Secondly, the cavity design was not fully optimized and we believe that the use of a larger resonant fundamental mode would result in an improvement of the beam quality.…”

“…Up to now, a maximum of 65 W of output power in continuous-wave has been demonstrated using an Yb: YAG single-crystal fiber at a pump power of 200 W at 940 nm [4]. This concept has started to reveal its potential as a femtosecond amplifier with a combination of high gain (30) and significant output power (12 W) in a very simple double-pass configuration [5].…”

250 W single-crystal fiber Yb:YAG laser

“…As opposed to the planar waveguide, the signal beam is in free propagation in the single crystal fiber, and its profile is defined by a cavity with two external mirrors for mode filtering. The concept of single crystal fiber has already been used successfully for a quasi-three level laser: the Yb:YAG with an output power of 50 W at 1030 nm [13]. Consequently, this laser crystal geometry seems to have a good potential for the development of high power quasi-three level Nd:YAG lasers at 946 nm.…”

34 W continuous wave Nd:YAG single crystal fiber laser emitting at 946 nm

“…Fortunately, the micro-pulling-down crystal growth is now a mature technique remarkably suited for the production of long (up to 1 m) and thin (down to 300 μm diameter) Yb:YAG SCFs with laser optical quality [5]. Interesting laser performances have been reported in cw and Q-switched Yb:YAG SCF oscillators [6].…”

Direct amplification of ultrashort pulses in µ-pulling down Yb:YAG single crystal fibers