DIRECTED ENERGY PROFESSIONAL SOCIETY

Event Proceedings
2005 SSDLTR

The items listed below constitute the proceedings from the 2005 Solid State Diode Laser Technology Review.
These, and other DEPS event proceedings, are available through the DEPS online store.

Unless otherwise noted, presentations only are included for each entry. Papers from the SSDLTR are published in the SSDLTR Technical Digest.


Attendees List

Conference Proceedings
Plenary Session
High Energy Laser Joint Technology Office Overview
Plenary-1 Mr. Ed Pogue, HEL Joint Technology Office
Army Science and Technology: High Energy Lasers
Plenary-2 Ms. Mary Miller,ASA (ALT)
Air Force Solid State Lasers
Plenary-3 Dr. Bruce Simpson, Air Force Research Laboratory
Navy HE SSL S&T
Plenary-4 Mr. Quentin Saulter, Office of Naval Reasearch
High Power Laser Technology at DARPA
Plenary-5 Dr. Robert Leheny, DARPA

Alternate Wavelength Sources
Power Scaling Broadband Laser Sources
ALT-1 Dr. Roy Mead, Aculight Corporation
Single-Mode Operation of Multi-Mode Fiber Raman Laser
ALT-2 Mr. Nathan Terry, Air Force Institute of Technology
New Raman Transceivers for 1.37-1.6 µm Range
ALT-3 Dr. Guerman Pasmanik, Passat, Inc
Fiber-Pumped, Singly Resonant CW OPO with 0.8 Watt Threshold
ALT-4 Dr. Angus Henderson, Aculight Corporation
High-Average Power Visible Generation in Periodically-Poled Nearly Stoichiometric Lithium Tantalate
ALT-5 Dr. Scott Sharpe, Physical Sciences Inc.
A Pulsed Sum Frequency Laser for Generating Synthetic Beacons
ALT-6 Dr. Edward Kibblewhite, University of Chicago
Update on the AFRL 50-watt Facility-Class Sodium-Guidestar Pump Laser
ALT-7 Dr. John Telle, Air Force Research Laboratory/DES

High Power Fiber Lasers
Diode-Bar Side-Pumping of Double-Clad Fibers
FIBER-4 Dr. Jeffrey Koplow, Sandia National Laboratory
Single Transverse Mode Yb-Doped Fiber Laser Generating up to 500µJ/11W with Flexible Pulse Parameters
FIBER-8 Mr. Tim Lauterborn, Fraunhofer
Multi-Kilowatt High-Brightness Fiber Coupled Diode Laser Systems
Dr. Nels Ostrom, Nuvonyx, Inc.
400-W Peak CW Power per Bar from 1-cm GaAs Bars For Emission Wavelengths From 800-nm to 980-nm, 90-W per bar at 660-nm
Dr. Paul Crump, nLight
Vacuum Testing of High-Power Laser Diode Arrays
Dr. Eliot Geathers, Pennsylvania State University
Advances in High Brightness Semiconductor Lasers
Dr. R Lammert, Quintessence Photonics Corporation
Emitter-Level Screening of Laser Diode Subassemblies
Mr. Ryan Feeler, Northrop Grumman Cutting Edge Optronics
Qualification of High-Power Laser Bars for Space Applications
Dr. Rajiv Pathak, Lasertel Inc.
Compact High Power, High Brightness Diode Laser for Pumping of Solid State Lasers
Dr. Andreas Brandt, Visotek, Inc.

Thermal and Power Management
Thermal Management for Laser Systems
TP-3 Dr. Pete Cologer, Swales Aerospace
Thermal Management of High Heat Flux Systems Using Micro-Jet Arrays
TP-4 Dr. Shari Motakef, Cape Simulations, Inc
Evaporative Spray Cooling and Thermal Energy Storage for Thermal Management of High Energy Lasers
TP-7 Mr. Benjamin Saarloos, Rini Technologies Inc.

Solid State Lasers #1
Determination of the Er3+ to Ho3+ Energy Transfer Coefficient in (Er, Ho):YAG
SS1-1 Dr. Russell Kurtz, Physical Optics Corporation
Diode Pumped Alkali Vapor Lasers-A New Pathway to High Beam Quality at High Average Power
SS1-2 Dr. R. Page, Lawrence Livermore National Laboratory
Low Thermal Load Er:YAG Laser for Long-Range Coherent Wind Lidar
SS1-4 Dr. Robert Stoneman, Coherent Technologies, Inc.
Power Scaling of Single-Mode High-Power Fiber Lasers
SS2-6 Dr. Peter Cheo,PC Photonics Corp.
High-Power, Tm-Fiber-Laser-Pumped, Ho:YLF Laser
SS1-6 Dr. Peter Moulton, Q-Peak, Inc.
Scaling Adhesive Free Bonding to Weapons-Level Size Components
SS1-7 Dr. Huai-Chuan Lee, Onyx Optics, Inc

Beam Combination and Control
Stability of an N-Core Evanescently Coupled Fiber Amplifier Array with Nonlinear Refractive Index
BC-1 Dr. Erik Bochove, Air Force Research Laboratory/DELO
Experimental Demonstration of a Phase-Locked Fiber-Laser Array in a Self-Fourier Cavity
BC-2 Dr. Christopher Corcoran, Corcoran Engineering, Inc.
External Cavity for Phase Locked Laser Array
BC-3 Dr. Frederic Durville, Optical Fiber Systems Inc
Scaling Fiber Lasers Beyond kW Power Levels By Spectral Beam Combining
BC-4 Dr. Charles Hamilton, Aculight Corporation
Beam Phasing of a Multi-Channel Amplifier Using a Fiber SBS Phase-Conjugate Mirror
BC-6 Mr. Brent Grime, Air Force Institute of Technology

Diode Pump Lasers #1
Space Qualification of Laser Diodes
DIODE1-1 Dr. Elisavet Troupaki, NASA Goddard Space Flight Center
High Power Laser Diode Array Reliability Assessment & Improvement
DIODE1-2 Mr. Eliot Geathers, Penn State University - Electro Optics Center
High Power Ultra-High Brightness and Reliability Multi-Mode Diode Pumps
DIODE1-4 Dr. Alex Ovtchinnikov, IPG Photonics Corp
Highly Reliable 9xxnm Laser Diode Bars with High Efficiencies
DIODE1-6 Dr. Jun Li, Coherent Semiconductor Business Unit
High Efficiency Bars at JDS Uniphase
DIODE1-7 Dr. Matthew Peters, JDS Uniphase
Development of High Brightness High Power Fiber Laser Pump Sources
DIODE1-8 Dr. John Haake, Nuvonyx, Inc

Diode Pump Lasers #2
High Volume Diode Array Production
DIODE2-1 Mr. Fred Way, Decade Optical Systems, Inc.
High Power Conversion Efficiency Diode Laser Bars 808nm-975nm
DIODE2-2 Dr. Manoj Kanskar, Alfalight Inc.
Eye-Safe, High-Power Grating-Outcoupled Surface-Emitting Semiconductor Lasers
DIODE2-3 Dr. S. David Roh, Photodigm
Quantum Cascade Laser Development at the Center for Quantum Devices
DIODE2-5 Dr. Manijeh Razeghi, Northwestern University, Center for Quantum Devices
Modal Gain Band Structure in Flat Field Intensity Coherent Arrays
DIODE2-6 Dr. Iulian Petrescu-Prahova, High Power Devices

Solid State Lasers #2
Chirped Bulk Bragg Gratings in PTR Glass for Ultrashort Pulse Stretching and Compression
SS2-1 Dr. Vadim Smirnov, Univ. of Central Florida, CREOL
Single-Mode Power Scaling in Rotary Disk Lasers
SS2-2 Dr. Santanu Basu, Sparkle Optics Corporation
Three Dimensional Simulation of Thermal Responses of End and Edge Pumped Yb:YAG Slabs
SS2-3 Dr. Ying Chen, University of Central Florida, CREOL/FPCE
Efficiency Analysis of the Er:YAG Laser with InP-Based, Ultra-Low-Photon-Defect, Diode Pumping
SS2-4 Dr. Mark Dubinskii, US Army Research Laboratory
40-mm-Core, Single-Mode Yb-Doped Photonic Crystal Fiber Laser Designed for Spectral Beam Combination
SS2-5 Dr. Fabio Di Teodoro, Aculight Corporation
Performance Improvement of a High Power Yb:YAG Laser
SS1-5 Mr. Dennis Harris, The Boeing Company

Poster Session
High Peak Power Polarization Preserving EYDFA
P-5 Dr. William Torruellas, Fibertek Inc
Concentration Dependent Q-Switched Lasing of Ceramic Nd:YAG
P-7 Dr. Mark Dubinskii, US Army Research Laboratory

 
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Last updated: 17 August 2017