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1. 发明申请

US20050271094A1 Method and apparatus for high power optical amplification in the infrared wavelength range (0.7-20 mum) 审中-公开
公开(公告)号：US20050271094A1
公开(公告)日：2005-12-08
申请号：US11129649
申请日：2005-05-16
申请人： Robert Miller , Kresimir Franjic , Darren Kraemer , Michel Piche
发明人： Robert Miller , Kresimir Franjic , Darren Kraemer , Michel Piche
IPC分类号： G02F1/39 , H01S3/00 , H01S3/094 , H01S3/098 , H01S3/10 , H01S3/109
CPC分类号： G02F1/39 , G02F2001/392 , H01S3/0057 , H01S3/109
摘要： A novel method for high power optical amplification of ultrashort pulses in IR wavelength range (0.7-20 Ãm) is disclosed. The method is based on the optical parametric chirp pulse amplification (OPCPA) technique where a picosecond or nanosecond mode locked laser system synchronized to a signal laser oscillator is used as a pump source or alternatively the pump pulse is created from the signal pulse by using certain types of optical nonlinear processes described later in the document. This significantly increases stability, extraction efficiency and bandwidth of the amplified signal pulse. Further, we disclose five new practical methods of shaping the temporal and spatial profiles of the signal and pump pulses in the OPCPA interaction which significantly increases its efficiency. In the first, passive preshaping of the pump pulses has been made by a three wave mixing process separate from the one occurring in the OPCPA. In the second, passive pre-shaping of the pump pulses has been made by spectral filtering in the pump mode-locked laser or in its amplifier. In the third, the temporal shape of the signal pulse optimized for OPCPA interaction has been actively processed by using an acousto-optic programmable dispersive filter (Dazzler) or liquid crystal light modulators. In the fourth alternative method, the signal pulse intensity envelope is optimized by using passive spectral filtering. Finally, we disclose a method of using pump pulses which interact with the seed pulses with different time delays and different angular orientations allowing the amplification bandwidth to be increased. In addition we describe a new technique for high power IR optical beam delivery systems based on the microstructure fibres made of silica, fluoride or chalcogenide glasses as well as ceramics. Also we disclose a new optical system for achieving phase matching geometries in the optical parametric interactions based on diffractive optics. All novel methods of the ultrashort optical pulse amplification described in this disclosure can be easily generalized to other wavelength ranges.

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