Presentation is loading. Please wait.

Presentation is loading. Please wait.

A New Design for a Tunable External Cavity Diode Laser

Published bySucianty Tan Modified over 5 years ago

Similar presentations

Presentation on theme: "A New Design for a Tunable External Cavity Diode Laser"— Presentation transcript:

1 A New Design for a Tunable External Cavity Diode Laser
J. W. Lyons, M.D. Mendiola and B. D. DePaola

2 An Abstract “We have designed and built a robust tunable external cavity diode laser that is easily constructed from commercial components. It requires only minimal, low tolerance machining, allowing for increased streamlining and ease of construction. The design also allows for the most commons types of laser diode packages, adding versatility.”

3 What does that really mean?
We wanted a laser that: was cheap was easy to make was adaptable

4 What’s the Laser For? Using these for our MOTRIMS experiment
MOT=Magneto Optical Trap RIMS= Recoil Ion Momentum Spectroscopy We use this to directly observe the populations in energy levels

5 A Short “MOT” Review Lasers use doppler shift to cool atoms
Zeeman Effect provides location-dependent force for trapping (an “Optical Molasses”)

6 A Short “RIMS” Review A beam on Na+ ions are fired at Rubidium-87
Rb absorb an electron=momentum change Number of ions at each location gives population count of energy levels

7 Laser Construction Coarse and fine control of diffraction grating
Control temperature Simplify wiring Accomodate other diodes

8 Diffraction grating mounted on commercial mirror mount.
PZT for Wavelength Tuning Redirection Mirror Laser Diode, Temperature Sensors, Collimating Tube Diffraction Grating Small, Regulated TECs Large, Unregulated TECs Aluminum Heat Sink Base Plate Diffraction grating mounted on commercial mirror mount. Grating-diode distance is finely controlled by a PZT.

9 Two TECs between to thermally regulate diode in feedback loop with controller.
Two lower, unregulated TECs cool the device generally.

10 Diode ring contains a separate temperature sensor to produce a human-interpretable output.

11 Most components are connected to SIP sockets soldered to a circuit board mounted above the plate.

12 Sockets are wired on the board to a DIP socket, where a DB-9 can connect via ribbon cable.

13 To accommodate different diodes, “keys” can be constructed and placed in an intermediary socket. This accounts for diode differences.

14

15 Features Very simple design
Only a small amount of machining required (all low tolerance) Adaptable for many different diodes Capable of very effectively regulating internal temperature Easy to disassemble/reassemble for troubleshooting and maintenance Additional mirror eliminates beam steering during tuning Works with easy to use commercial modules

16 Acknowledgements Thank you to: Dr. DePaola Madilena K-State NSF

Download ppt "A New Design for a Tunable External Cavity Diode Laser"

Similar presentations

Development of an External Cavity Quantum Cascade Laser for High- Resolution Spectroscopy of Molecular Ions JACOB T. STEWART, BRADLEY M. GIBSON, BENJAMIN.

Development of an External Cavity Quantum Cascade Laser for High- Resolution Spectroscopy of Molecular Ions JACOB T. STEWART, BRADLEY M. GIBSON, BENJAMIN.
Ultra-Stable Lasers Supervisor Dr Randy Bartels Team Members Steven Dorlac, Andrew Wiersma, Daxsamuel Chitechi, Derrick Bernallie.

Ultra-Stable Lasers Supervisor Dr Randy Bartels Team Members Steven Dorlac, Andrew Wiersma, Daxsamuel Chitechi, Derrick Bernallie.
Single Mode Stabilization of Diode Lasers Ryan Courreges.

Single Mode Stabilization of Diode Lasers Ryan Courreges.
GST FIRE ALARM SYSTEM INTERNATIONAL BUSINESS DEPARTMENT , GST BEIJING

GST FIRE ALARM SYSTEM INTERNATIONAL BUSINESS DEPARTMENT , GST BEIJING
Jeff Johansen, Kevin Zack SRJC Spring 2011 Physics 43.

Jeff Johansen, Kevin Zack SRJC Spring 2011 Physics 43.
Optimizing a Highly Stable Diode Laser for Spectroscopy and Atom Trapping John E. Sohl Caleb Z. Trammell Weber State University Ogden, UT.

Optimizing a Highly Stable Diode Laser for Spectroscopy and Atom Trapping John E. Sohl Caleb Z. Trammell Weber State University Ogden, UT.
Introduction Our goal this semester was to setup a recently purchased tunable diode laser from Thorlabs (TLK-L780M). Tunable lasers are important in physics.

Introduction Our goal this semester was to setup a recently purchased tunable diode laser from Thorlabs (TLK-L780M). Tunable lasers are important in physics.
Laser System for Atom Interferometry Andrew Chew.

Laser System for Atom Interferometry Andrew Chew.
Danielle Boddy Durham University – Atomic & Molecular Physics group Laser locking to hot atoms.

Danielle Boddy Durham University – Atomic & Molecular Physics group Laser locking to hot atoms.
Absorption and emission processes

Absorption and emission processes
PHOTONICS CENTER 6/3/20031External Cavity Laser Diode Arrays - Thermal Effects Gregory Blasche Bennett Goldberg Boston University Physics Department M.

PHOTONICS CENTER 6/3/20031External Cavity Laser Diode Arrays - Thermal Effects Gregory Blasche Bennett Goldberg Boston University Physics Department M.
CHE/ME 109 Heat Transfer in Electronics

CHE/ME 109 Heat Transfer in Electronics
Construction of a Laser Frequency Stabilization System for a Magneto Optical Trap Talia Martin and Dr. Edward Deveney Department of Physics, Bridgewater.

Construction of a Laser Frequency Stabilization System for a Magneto Optical Trap Talia Martin and Dr. Edward Deveney Department of Physics, Bridgewater.
Resonant Faraday Rotation in a Hot Lithium Vapor Scott Waitukaitis University of Arizona, Department of Physics May 2007.

Resonant Faraday Rotation in a Hot Lithium Vapor Scott Waitukaitis University of Arizona, Department of Physics May 2007.
Laser Optics and Quantum Mechanics Jason Goff, UCORE Summer ‘07 Steck Lab, University of Oregon Oregon Center for Optics.

Laser Optics and Quantum Mechanics Jason Goff, UCORE Summer ‘07 Steck Lab, University of Oregon Oregon Center for Optics.
Operating instruction for IQ series laser diode module Instructions for IQ1C, IQ2C, IQ4C, IQ1A, IQ2A, IQ4A, IQ1H, IQ2H, and IQ4H By Nathan Bran. and power.

Operating instruction for IQ series laser diode module Instructions for IQ1C, IQ2C, IQ4C, IQ1A, IQ2A, IQ4A, IQ1H, IQ2H, and IQ4H By Nathan Bran. and power.
Laser Locking for Long-term Magneto-Optical Trap Stability Kevin W. Vogel Advisor: Georg Raithel Presented 07/28/04.

Laser Locking for Long-term Magneto-Optical Trap Stability Kevin W. Vogel Advisor: Georg Raithel Presented 07/28/04.
On the path to Bose-Einstein condensate (BEC) Basic concepts for achieving temperatures below 1 μK Author: Peter Ferjančič Mentors: Denis Arčon and Peter.

On the path to Bose-Einstein condensate (BEC) Basic concepts for achieving temperatures below 1 μK Author: Peter Ferjančič Mentors: Denis Arčon and Peter.
Chad Orzel Union College Physics Radioactive Background Evaluation by Atom Counting C. Orzel Union College Dept. of Physics and Astronomy D. N. McKinsey.

Chad Orzel Union College Physics Radioactive Background Evaluation by Atom Counting C. Orzel Union College Dept. of Physics and Astronomy D. N. McKinsey.
S ATURATED L ASER A BSORPTION S PECTROSCOPY By Melanie Pelcher and Theodore Rapach.

S ATURATED L ASER A BSORPTION S PECTROSCOPY By Melanie Pelcher and Theodore Rapach.

Similar presentations

Ads by Google