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DIRECTED ENERGY
PROFESSIONAL SOCIETY
Event Proceedings |
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2010 SSDLTR Technical Digest |
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The papers listed below constitute the Technical Digest published from the
2010 Solid State Diode Laser Technology Review.
These, and other DEPS event proceedings, are available through the
DEPS online store.
Unless otherwise noted, papers only are included for each entry.
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You may purchase this item from our online store. |
| Technical Summaries |
| Beam Control |
Diamond Raman Beam Combining and Cleanup
Matthew Bohn, Directed Energy Solutions |
Coherent Beam Combination in Two-Dimensional Waveguides
Andrew Bratcher, Lockheed Martin Coherent Technologies |
Coherent Laser Combination Using a Self-Fourier Cavity
Christopher Corcoran, Corcoran Engineering, Inc. |
High-Reliability, High-Power Combiners for Fiber Lasers and Amplifiers
Imtiaz Majid, Nufern |
Coherently Combined High-Power Intelligent Semiconductor Emitters (COCHISE)
Shawn Redmond, MIT Lincoln Laboratory |
Coherent Polarization Beam Combination with Active Phase and Polarization Control
Radoslaw Uberna, Lockheed Martin Coherent Technologies |
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Diode Lasers |
Diode Laser Stacks in the 100-J Range
Eckard Deichsel, JENOPTIK Laserdiode GmbH |
Single Emitter Based High Brightness Diode Lasers with High Brightness and Narrow Linewidth
Stefan Heinemann, Fraunhofer USA, Center Laser Technology |
High-Power VCSEL Pump Sources for Nd:YAG Lasers
Daniel Klemer, Aerius Photonics, LLC |
Reliable Power Scaling of Diode Laser Modules Based on Arrays of Single Emitters
Paul Leisher, nLight Corporation |
High-Power Optically Pumped Semicondictor Laser at 1040 nm
Jerome Moloney, University of Arizona |
Record Pulsed Power Demonstration from a 2 micron GaSb-Based OPSL Grown Lattice-Mismatched on an AIAs/GaAs Bragg Mirror and Substrate
Jerome Moloney, University of Arizona |
4-kW, 1mm (0.20-NA), Continuous Wave, Single-Wavelength, 9xx nm, Fiber-Coupled, Turn-Key Diode-Laser System
Rajiv Pandey, DILAS Diode Laser Inc. |
Light Sources for High Brightness Pumping Applications
Rajiv Pathak, Coherent, Inc. |
Wavelength-Stabilized Pump Sources from 20 to 2000 W
Kirk Price, nLIGHT Corporation |
High-Brightness, Fiber-Coupled Diode Lasers for Fiber Laser Pumping Enabled by Tailored Diode Laser Bars
S. David Roh, Coherent, Inc. |
Advances in QCW and CW Laser Diode Arrays
David Schleuning, Coherent Inc. |
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Enabling Technologies |
Cryogenically Cooled Diode Lasers
Matthew Bohn, Directed Energy Solutions |
Analysis of the Power Quality Impact of Multiple Directed Energy Loads on an Electric Ship Power System
Angelo Gattozzi, University of Texas at Austin |
Loop Heat Pipe Technology for Laser Cooling
Dmitry Khrustalev, ATK Space |
Novel Technique for Laser Gain Media to Heat Sink Integration for Improved Thermal Management
Ove Lyngnes, Precision Photonics Corporation |
Investigation of Interface Heat Transfer in Adhesive-Free Bond Laser Composites
Xiaodong Mu, Onyx Optics Inc. |
Development of Active Heat Sink for High-Power Laser Diodes
John Vetrovec, Aqwest LLC |
IBS Anti-Reflection Coatings for High-Power Fiber Laser Endcaps
Chris Wood, Precision Photonics Corporation |
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Fiber Lasers |
kW-Class, Narrow-Linewidth Counter-Pumped Fiber Amplifiers
John Edgecumbe, Nufern |
High Efficiency Coherent Combining of a 1.4-kW Fiber Laser
Gregory Goodno, Northrop Grumman Aerospace Systems |
Effect of Co-Seeding of Broadband 1040-nm radiation with Narrowband 1064-nm Radiation on SBS Threshold
Leanne Henry, Air Force Research Laboratory |
All-Fiber isolator in Undoped Silica Fiber
Chunte Lu, Air Force Research Laboratory/DED |
Advanced Thulium:Fiber Laser Development
Martin Richardson, Townes Laser Institute, CREOL |
Semi-Guiding High Aspect Ratio Core (SHARC) Fiber Laser
Vladimir Shkunov, Raytheon Space & Airborne Systems |
Phase Coherence, Phase Noise and Phase Control in a High-Power Yb Fiber Amplifier
Charles Yu, MIT Lincoln Laboratory |
Power and Efficiency Scaling of Resonantly Cladding-Pumped Er-Doped LMA Fiber Laser
Jun Zhang, US Army Research Laboratory |
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Solid State Lasers |
Heat-Fraction-Limited CW Yb:YAG Cryogenic Solid-State Laser with 100% Photo-Photon Efficiency
David Brown, Snake Creek Lasers, LLC |
Thin Disk Laser Performance with Various Cooling Configurations
Tyler Carson, Air Force Research Laboratory/DED |
Cryo-Cooled Er:YAG Laser Resonantly Pumped by a Fiber Coupled Ultra-Spectrally-Narrowed Diode Source
Viktor Fromzel, US Army Research Laboratory |
Cryogenically Cooled Solid-State Lasers: Recent Developments and Future Prospects
John Hybl, MIT Lincoln Laboratory |
Textron's J-HPSSL 100-kW ThinZag,® Laser Program
Alexander Mandl, Testron Defense Systems |
Silicon Carbide Face Cooled Thin Disk Laser
G. Alex Newburgh, Army Research Laboratory |
Cryogenic Er:YAG Lasers: Aspects of Diode Pumping
Nikolay Ter-Gabrielyan, Army Research Laboratory |
Yb:YAG Disk Amplifier for Pulsed Operation at High-Average Power
John Vetrovec, Aqwest LLC |
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Exhibit Booth Corporate Descriptions |
| Avo Photonics, Inc. |
| Coherent Inc. |
| CorActive |
| DILAS Diode Laser, Inc. |
| EM4, Inc. |
| EpiWorks, Inc. |
| Intense Ltd. |
| IPG Photonics |
| Laser Operations LLC / QPC Lasers |
| Lasertel, Inc. |
| Northrop Grumman |
| Nufern |
| Ondax, Inc. |
| OptiGrate |
| Precision Photonics |
| Textron Systems |
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