Proceedings Volume 9834 is from: Logo
17-21 April 2016
Baltimore, Maryland, United States
Front Matter: Volume 9834
Proc. SPIE 9834, Front Matter: Volume 9834, 983401 (23 September 2016);
Novel Laser Materials; Advanced Laser Modeling and Beam Characterization
Proc. SPIE 9834, Full spatially resolved laser modeling and design using GLOSS, 983404 (13 May 2016);
Proc. SPIE 9834, Er-doped YVO4 amplifier diode pumped at 976 nm, 983406 (13 May 2016);
Proc. SPIE 9834, Wide-bandwidth ceramic Tm:Lu2O3 amplifier, 983407 (13 May 2016);
Military Laser Systems and Concepts, and Lasers for Space Applications
Proc. SPIE 9834, Advanced laser architecture for the two-step laser tandem mass spectrometer, 983409 (13 May 2016);
Proc. SPIE 9834, Three-year aging of prototype flight laser at 10 kHz and 1 ns pulses with external frequency doubler for ICESat-2 mission, 98340A (13 May 2016);
Proc. SPIE 9834, Beam shaping to provide round and square-shaped beams in optical systems of high-power lasers, 98340B (13 May 2016);
Advanced Laser Architectures; Ultrashort-pulse Amplification and Nonlinear Effects
Proc. SPIE 9834, High-gain multipassed Yb:YAG amplifier for ultrashort pulse laser, 98340C (13 May 2016);
Proc. SPIE 9834, Tm/Ho co-doped pulsed fiber laser with low spectral and temporal noise, 98340E (13 May 2016);
Proc. SPIE 9834, Supercontinuum generation in dispersion-varying microstructured optical fibers, 98340F (13 May 2016);
Proc. SPIE 9834, Laser cavity mode formation employing diffractive phase structures, 98340G (13 May 2016);
Semiconductor Laser Development
Proc. SPIE 9834, Fiber-coupled modules producing >300W and >600W from a 225 micron fiber, with <0.7 kg/kW weight-power ratio, 98340I (13 May 2016);
Proc. SPIE 9834, New advancements in 793 nm fiber-coupled modules for Th fiber laser pumping, including packages optimized for low SWaP applications, 98340J (13 May 2016);
Proc. SPIE 9834, Advances in AlGaInN laser diode technology for defence and sensing applications, 98340K (13 May 2016);
Raman Lasers and Convertors (Bulk and Fiber); Modal Instability Mitigation
Pulsed Lasers (Moderately Short-Pulse)
Proc. SPIE 9834, Development of high-power and high-energy 2 µm bulk solid-state lasers and amplifiers, 98340U (13 May 2016);
Poster Session
Proc. SPIE 9834, Research on the optimal structure configuration of dither RLG used in skewed redundant INS, 98340V (13 May 2016);
Proc. SPIE 9834, Highly efficient, high energy 1.5 μm pulsed fiber laser with precise linewidth and wavelength control of individual pulses, 98340W (13 May 2016);
Proc. SPIE 9834, Applications of signal multiplexing in fiber optic-based acoustic and seismic sensors, 98340X (13 May 2016);
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