Laser Dye Performance A.Jaqueline Mena University of Hawai’i- Hilo W.M. Keck Observatory Mentor: Kenny Grace Advisor: Jason Chin Funding provided through.

Slides:

Advertisements

Similar presentations

Redesigning General Chemistry at the University of Arizona: How to engage students? Steve Brown, Gail Burd, John Enemark, Anne Padias, John Pollard, Vicente.

Advertisements

Built-In Test Software for Deformable Mirror High Voltage Drivers Built-In Test Software for Deformable Mirror High Voltage Drivers Jianwei Zhou Home Institution:

Scott Hamilton Bill Randolph University of Hawaii at Manoa W. M. Keck Observatory.

Creating a Geoprocessing Model for Maui’s E911 By Shanoa Miller Internship: Akimeka LLC Mentor: Maria Nieves Advisor: Tony Ramirez.

Adaptive Optics Institute for Astronomy David Kim.

Controlling and Monitoring the 0.9- Meter Telescope Katherine Hall University of Hawaii-Hilo UH-Hilo 0.9m – H ō k ū Ke`a John Hamilton Jay Slivkoff.

1. SMA Project Description Background Design Construction Test Conclusion Acknowledgments 2.

1.  Background on AMiBA  Problems/Things to Consider  Solutions/introduce my project  Fabrication  Conclusion  Acknowledgments 2.

Scientific Method to the Rescue

Conclusion This summer our projects worked on creating technologies and devices to improve communications and communications security. These technologies.

Sergey Kucheryavski Raman spectroscopy Acquisition, preprocessing and analysis of spectra.

Darcy Bibb Oceanit Mentor: Tony Bartnicki Advisor: Curt Leonard Home Institution: Maui Community College Integration of a Small Telescope System for Space.

Core-Shell Nanoparticle Generation Using Laser Ablation Vanessa Coronado, Westside High School, Houston ISD Dr. Sy-Bor Wen/ Assistant Professor and YoungKyong.

1 Using ArcGIS software to map Maui Joseph Rose Pacific Disaster Center Mentor: Pam Cowher Advisor: Chris Chiesa Collaborator: Augustus Elias Home Institution:

Introduction Radioactive nuclei decay in numerous ways: emitting electrons, protons, neutrons, alpha particles, gamma rays, x-rays, or some combination.

Large Multilayer Diffraction Gratings: Coating Uniformity Senior Student: Erik Krous Project Advisor: Dr. Carmen Menoni Collaborators: Dr. D. Patel, Dr.

1 Built-In Test Software for Deformable Mirror High Voltage Drivers Jianwei Zhou Home Institution: University of Hawaii at Manoa CfAO Akaimai Intership.

Extracting the Mystery from the Red Rectangle Meghan Canning, Zoran Ninkov, and Robert Slawson Chester Carlson Center for Imaging Science Rochester Institute.

Maui Akamai Internship

Effects of Fluorescence Self Absorption of Algae in Sea Water Candy Barbaran Annie Becerra Mentors: Prof. Fred Moshary Dr. Alex Gilerson NYCRI C N p.

Canada-France-Hawaii Telescope Observatory Automation Project: Audio and Video Management Project by: Amber Imai Mentors: Tom Vermeulen & Bill Cruise Advisor:

IRIS Telescope Camera Kimberly Bott Institute for Astronomy Mentor: Klaus Hodapp Home Institution: University of Hawaii at Hilo 2008 Center for Adaptive.

Nanoscale Cr 4+ – Doped Olivine Crystallites in Glass-Ceramics for NIR Optical Amplifiers and Lasers By: Fayette Colon Mentor: Mikhail Sharonov Assistant.

HIGH-RESOLUTION COHERENT THREE-DIMENSIONAL SPECTROSCOPY OF IODINE

1 Mapping Maui’s Major Roads With Global Positioning System Devices Augustus Elias Center for Adaptive Optics Pacific Disaster Center Mentor: Pam Cowher.

Testing and Fine-Tuning HANDS’ Automated Photometric Pipeline Austin Barnes Oceanit Mentor: Russell Knox Advisors: Rita Cognion and Curt Leonard Home Institution:

Characterization of MEMS Deformable Mirrors for Wavefront Control in Extreme Adaptive Optics Center for Adaptive Optics University of California, Santa.

1 Automated Installation Windows Unattended Client PC Setup Vahid Ajimine W.M. Keck Observatory Mentor: Jason Ward Home institution: University of Hawaii.

1 Sun Tracking Stablility Through Imaging Tyson Seto-Mook Institute for Astronomy.

1 De-Fringing Michelle Spectra Through Fourier Filtering GEMINI NORTH TELESCOPE HILO, HAWAII INTERN: MEGAN ANSDELL ADVISOR: SCOTT FISHER.

MAORI Lisa Rightmire Mentor: Marcos van Dam. What is MAORI?  The indigenous tribal people of New Zealand  Marcos’ Adaptive Optics Rectangular Interface.

Viewing the Universe through distorted lenses: Adaptive optics in astronomy Steven Beckwith Space Telescope Science Institute & JHU.

Dwarf Galaxies and Galaxy Formation Valerie Bick University of California, Santa Cruz Research Mentor: Constance Rockosi Home Institution: California Polytechnic.

Characterization and Upgrading of Adaptive Optics Demonstrator Joseph Curamen Maui Community College Mark Hoffman & Mark Ammons MCC & UCSC-CfAO.

Summit Radio Maintenance and IF Motor Testing By: Blake Stene Akamai Internship W.M. Keck Observatory Mentor: Jason Chin Home Institution: Hawai’i Community.

The Akamai Observatory Short Course AOSC 07 Anticipated Core Team S. Anderson (Keck) : Hawaii Island Internship Program Coordinator D. Le Mignant.

LED Lights: The Future of Lighting Lowen Okamoto Mentor: Dan O’Connell Lowen Okamoto Mentor: Dan O’Connell.

Vacuum System Vibration Analysis on the Keck Telescopes Michael Cooney W.M. Keck Observatory.

Designing a Portable Data Acquisition Unit: Increasing Efficiency and Maximizing Productivity by Use of Standards Dustyn Iwamoto Home Institution: Honolulu.

Satellite Orbit Visualization Vladimir Ivanov Oceanit Project Supervisor: Frank Dachille Project Advisor: Dale Nahoolewa, Curt Leonard Home Institution:

Automating Astronomical Instrument Setup Eric J. Dela Rosa Hawaii Island Akamai Internship Canada France Hawaii Telescope Mentor : Gregory Barrick Advisor:

1 Inventory Management Database Development Conrad Corpuz Mentor: Alisa Manangan Advisor: Errol Gorospe Maui Community College.

Shem Livai Institute for Astronomy Mentor: Colin Aspin Advisor: Bo Reipurth Home Institution: University of Hawaii at Manoa Funding provided through the.

LabVIEW Control Software for the UH-Hilo 0.9m Telescope

1 CfAO Educational Partnerships in Hawaii: Summer Internships with Long-Term Impact Lisa Hunter Associate Director, Education & Human Resources Center.

Hawaii Island Akamai Observatory Short Course CfAO EHR Meeting January 24th 2006 Sarah Anderson.

Improved Imaging of Near Earth Objects Using Better Telescope Specifications Hazel Butler CfAO Akamai Internship Institute for Astronomy Advisors: Stuart.

Radiometric Calibration for the MAIA Laser Receiver Stacey R. Sueoka Mentor: Robert Nolan Supervisor: Don Ruffatto Textron Systems.

Nanoscale Cr 4+ Doped Olivine Crystallites Used In Optical Amplifiers and Lasers Presentation by: Victor Ortiz Mentor: Dr. Alexei Bykov Mentor: Dr. Alexei.

Topic 1 Tools of the Biology Laboratory Exercise I. The spectrophotometer. Exercise II. Liquid Measurements. Exercise III. Sedimentation and Centrifugation.

Keck Observatory Overview Peter Wizinowich W. M. Keck Observatory AOSC May 31, 2004.

How can we use spectroscopy to quantify amount of substance?

Z Knight W.M. Keck Observatories Research Supervisor: Al Conrad Home Institution: University of Hawai'i at Hilo A Graphical User Interface for NIRC2 Asteroid.

Experiments and Design of a wavelength calibration procedure for MOSFIRE Principal Investigator: David Guerrero, Cal Poly SLO Research Advisor: Ian McLean,

Theme 2 AO for Extremely Large Telescopes Center for Adaptive Optics.

Topic 1 Tools of the Biology Laboratory Exercise I. The spectrophotometer. Exercise II. Liquid Measurements. Exercise III. Sedimentation and Centrifugation.

A New WAVE of ENERGY Jasmine Yoshimoto Mentor: Ned Davis Maui Akamai Internship Program Internship site: Trex Enterprises August 4,

Mirror Alignment Using Dual Beam Laser

Laser(s) for Keck Observatory’s Next Generation AO (NGAO) System

Aloha, my name is Ronald Magarin and I’ve been working with the institute for astronomy working under the guidance of Dr’s Doug Hope and Stuart Jefferies.

Theme 2 AO for Extremely Large Telescopes

Laser Light overview.

Scientific Method to the Rescue

Scientific Method to the Rescue

Image Restoration in Strong Atmospheric Turbulence

STEP 1 – DETERMINE THE WAVELENGTH OF LIGHT TO USE

Theme 2 AO for Extremely Large Telescopes

Doppler Effect and Spectroscopy

Image Database Catalog

Theme 2 AO for Extremely Large Telescopes

Presentation transcript:

Laser Dye Performance A.Jaqueline Mena University of Hawai’i- Hilo W.M. Keck Observatory Mentor: Kenny Grace Advisor: Jason Chin Funding provided through the Center of Adaptive Optics, a National Science Foundation Science and Technology Center (STC), AST Photo Credit: John McDonald, CFHT

Overview Background Information: –Laser Guide Star –Dye Laser Introduction: –Problem –Purpose –Goal Experiment –Set-up/Procedure Analysis –Peak-to-Valley Ratios –Spectral Slopes –Dye Concentration Measurements Results and Conclusion Acknowledgements

Laser Guide Star (LGS) 589nm  Excites sodium layer  Creates an artificial guide star  Allows image correction: Background Photo: of W.M.Keck and UCLA

Basic Dye Laser

Layout: Keck’s Laser DMO Dye Master Oscillator 6 Yag Lasers Yttrium Aluminum Garnet

Problem The observatory presently has no method for determining when its laser dye should be changed to maintain the laser guide star’s performance. Old dye can cause down time on the laser for several nights. Old dye… …new dye, see our problem? R2 Perchlorate Dye dissolved and diluted in Ethanol

Old DMO Dye Output power was 9 watts After the dye was replaced… Output power was 18 watts This means… The laser is twice as efficient with the new dye

To find consistent characteristics in old dyes’ spectra that will help determine when the dye should no longer be used. Purpose

Goal To create a specific procedure for analyzing laser dye samples, and to identify the spectral features that change most with dye age and overexposure. Steve Doyle holding up a small sample of old dye

Experiment Four Dye Samples: New Dye, Dye with 200 hours of use, Old Amplifier (Amp) dye (unknown exposure time), and Old Dye Master Oscillator (DMO) Dye (unknown exposure time)

New Dye 200 Hr. Dye Old Amp Dye Old DMO Dye

Peak-to-Valley Subtractions Subtracted: B-A, B-C, D-E, F-G A B C D E F G DMO Amp 200 Hr New

New Dye 200 Hr. Dye Old Amp Dye Old DMO Dye Old DMO Old Amp 200 Hr. New

New Dye 200 Hr. Dye Old Amp Dye Old DMO Dye 11% 127% 89%

Concentration Measurements New Dye: Hr. Dye:  0% Old Amp Dye:  39% Old DMO Dye:  34%

Dye should be changed when the bar graph of the peak-to- valley subtraction calculations changes in pattern compared to the new dye. Dye should be changed when the slope changes by more than 30% of the original.

Dye should be changed when the concentration drops by 30% Dye should be changed when the graph’s peak at nm drops by 30%

Acknowledgments Center for Adaptive Optics Sarah Anderson Lisa Hunter Scott Seagroves Hilary O’Bryan Internship short course staff My internship peers Everyone at W.M. Keck Observatory Taft Armandroff Kenny Grace Ron Mouser Kathy Muller Steve Shimko Jason Chin University of Hawai’i at Hilo Institute for Astronomy Thank YOU for your time and support! Funding provided through the Center of Adaptive Optics, a National Science Foundation Science and Technology Center (STC), AST

The following are slides that I had to cut out due to time limits.

Keck’s Laser This is a tunable laser. It was one of the first to achieve 589nm light at sufficient power levels to create an artificial guide star This is a watt laser

Courtesy of W.M. Keck Observatory

Challenges Proper method of diluting samples (accurate measurement) Correct dilutions to analyze (too much or too little absorption/transmission) Correct wavelengths to perform analysis Software and hardware issues Correct sample integration times

Equipment Samples of dye 90% Ethanol Micropipettes Graduated cylinder Paper towels Gloves and splash goggles Spectrometer SpectraSuite Software

Equipment Samples of dye 90% Ethanol Micropipettes Graduated cylinder Paper towels Gloves and splash goggles Spectrometer SpectraSuite Software

Equipment Samples of dye 90% Ethanol Micropipettes Graduated cylinder Paper towels Gloves and splash goggles Spectrometer SpectraSuite Software

Spectrometer This spectrometer was used to measure the absorbance and transmission of dye over specific portions of the electromagnetic spectrum ( nm). The independent variable is wavelength (nm). Background Photo: Courtesy W.M. Keck