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Single Mode Stabilization of Diode Lasers. Ryan Courreges. Overview. Motivation Introduction to Diode Lasers Theory Locking Methods Volume Holographic Method Future Plans Conclusion. Application in Solar Energy.
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Single Mode Stabilization of Diode Lasers Ryan Courreges
Overview • Motivation • Introduction to Diode Lasers • Theory • Locking Methods • Volume Holographic Method • Future Plans • Conclusion
Application in Solar Energy • With a specially designed holographic optical element (HOE), a large portion of the expensive silicon photovoltaic (PV) cells in a solar panel can be replaced • With this Holographic Planar Concentrator™ (HPC) technology, the solar modules produce more energy in all conditions when compared to a standard module with an equal area of silicon PV cells.
Introduction to Diode Lasers • Inherently multi-mode • Large line width • Poor coherence length • Why not gas or DPSS? • Cost • Size and packaging • Additional requirements for operation • Single mode diode laser necessary
Theory • Why are diode lasers multi-mode? • Large bandwidth gain medium • Optical cavity supports many modes • How is a diode laser made to operate in single mode? • Feedback • Full Spectrum • Wavelength Specific
Locking MethodsSimple Extended Cavity • Pros • Very easy to align • Inexpensive • Stabilizes mode hops • Cons • Large linewidth unsuitable for many holographic applications
Locking MethodsLittrow • Pros • Wavelength tunable • Inexpensive • Narrow linewidth • Cons • Beam alignment changes with changes in cavity alignment • Some power loss in secondary orders
Locking MethodsLittman-Metcalf • Pros • Wavelength tunable • Inexpensive • Narrow linewidth • Cons • More difficult alignment than standard Littrow configuration • More power loss than standard Littrow configuration
Locking MethodsVolume Holographic Grating • Pros • Very narrow linewidth • Can be wavelength tunable • Very small package size • Cons • Precise alignment is neededand must be maintained • VHGs are difficult to produce and expensive to purchase.
Volume Holographic Method • Why would one choose to use a VHG instead of another method to mode-lock the laser given the downsides? • With proper temperature and current controls, a diode locked with a VHG can remain stable for long periods of time. • The size of the entire mode-locked laser unit can be made small, making for a versatile package. • Truly single mode operation is possible.
Volume Holographic Method Free Running Diode Output Poorly Stabilized Diode Output
Volume Holographic Method • Recall the issue of alignment • With the precision alignment required, keeping a laser locked long term can be difficult • Small changes in temperature can effect alignment • There are methods to improve this however • A self-aligning setup is possible • If a thinner holographic grating is used, the angular selectivity will be reduced.
Volume Holographic Grating Self-aligning Method Direct Attachment to Diode • Only a coarse alignment is needed for laser to be locked • Wavelength of the laser can be changed by adjusting the angle of the grating • Thin grating is less angularly and wavelength selective • Grating will lock the diode provided the system is controlled to the proper temperature • Linewidth larger than with thicker gratings
Plans for the Future • Set up a high precision alignment station for further testing and development • Run long term mode stability tests of locked laser diodes • Design production level prototype modules • Begin testing and development of holographic recording • Implement laser system into full scale production line
Conclusion • Diode lasers are preferable to other laser types • Diodes in general are less expensive than gas and DPSS systems • Most diode lasers are multi-mode and have short coherence lengths thus making them unsuitable for holography • With an extended cavity the linewidth of the diode can be significantly reduced and single mode operation is possible • With a smaller linewidth the diode will have a longer coherence length making the laser usable for recording holograms
Acknowledgements I would like to thank Dr. Alex Cronin for all his support and guidance on this project. I would also like to thank everyone at Prism Solar Technologies for giving me the opportunity and means to pursue my project goals.