Summary form only given. The development of solid state UV lasers is major industrial challenge for various applications, among them spectroscopy, lithography, material processing, or ophthalmology.In this paper, we present a 266 nm UV source based on the fourth harmonic generation of a Nd:YAG single-crystal fiber MOPA previously developed [4]. The 1064 nm amplified laser system is described in detail in [5]. A Q-switched microchip laser is amplified with a Nd:YAG singlecrystal fiber in double pass configuration. It delivers a maximum of 2.3 W at 1 kHz with pulses of 550 ps (2.3 mJ pulses) and an excellent beam quality (M2=1.06), reaching a peak power of more than 4 MW. The frequency conversion scheme (Fig.1) is based on harmonic generation LBO/BBO crystals. We reached 22.7% of total conversion efficiency from infrared to UV. We obtained a 266 nm output of 530 mW (Fig.2), at 1 kHz with pulses width of 540 ps. This represents a peak power of 980 kW. We measured the UV beam profile and determine its M2 to be <;2. To the best of our knowledge, this is the first realization of a 266 nm sub nanosecond source based on passively Q-switched oscillator with MW peak power combined with half-watt average power. This work demonstrates the potential of single-crystal fiber amplifiers for high performance UV MOPA systems