Presentation is loading. Please wait.

Presentation is loading. Please wait.

Active Control of Aberrations for the Large Synoptic Survey Telescope (LSST) Brice Cannon Lawrence Livermore National Laboratory Research Supervisor: Scot.

Published byPenelope Singleton Modified over 9 years ago

Similar presentations

Presentation on theme: "Active Control of Aberrations for the Large Synoptic Survey Telescope (LSST) Brice Cannon Lawrence Livermore National Laboratory Research Supervisor: Scot."— Presentation transcript:

1 Active Control of Aberrations for the Large Synoptic Survey Telescope (LSST) Brice Cannon Lawrence Livermore National Laboratory Research Supervisor: Scot Olivier Research Mentor: Stacie Hvisc Home Institution: Norfolk State University

2 Outline LSST LSST Basic Design Basic Design Curvature Sensors Curvature Sensors Results Results Conclusion Conclusion

3 3 Mirrors 3 Mirrors 10 square-degree field 10 square-degree field 3.2 Gigapixel camera 3.2 Gigapixel camera Google Universe? Google Universe? Chile Chile

4 Basic Design M1 8.4m M2 3.4m M3 5.0m Camera Focal Plane CWFS

5 Camera: Focal Plane Array d Bay 17Bay 16Bay 15Bay 18Bay 19 Bay 22Bay 21Bay 20Bay 23Bay 24 Bay 12Bay 11Bay 10Bay 13Bay 14 Bay 17Bay 16Bay 15Bay 18Bay 19 Bay 07Bay 06Bay 05Bay 08Bay 09 Bay 02Bay 01Bay 00Bay 03Bay 04 42 mm CWFSFocal Plane d d

6 Active Control of Aberrations Mirror aberrations Mirror aberrations Gravity and thermal changes Gravity and thermal changes Curvature sensor errors Curvature sensor errors Sky-brightness Sky-brightness Phase reconstruction Phase reconstruction

7

8 Effect of Sky-Brightness

9 Applied Phase Reconstructed phase diagram from CCD Intra focus CCD Image Extra focus CCD Image Stellar Magnitude 19 18 17 16 15 14

10 RMS CWFS error vs. Stellar Mag.

11 Probability

12 All bands at 90

13 90 vs. 30

14 Conclusion Sky-brightness will introduce error Sky-brightness will introduce error Simulated LSST CWFS accuracy meets requirements Simulated LSST CWFS accuracy meets requirements Promising performance capabilities Promising performance capabilities Future Design improvements Future Design improvements Implementation in a LSST model Implementation in a LSST model

15 Acknowledgements Scot Olivier Stacie Hvisc Don Phillion Kevin Baker CfAO "Funding provided through the Center for Adaptive Optics, a National Science Foundation Science and Technology Center (STC), AST-987683."

16 References Krisciunas, Kevin, and Bradley E. Schaefer. "A Model of the Brightness of Moonlight." Astronomical Society of the Pacific 103(1991): 1033-1039. Krisciunas, Kevin, and Bradley E. Schaefer. "A Model of the Brightness of Moonlight." Astronomical Society of the Pacific 103(1991): 1033-1039. LSST, "LSST: A New Telescope Concept." Large Synoptic Survey Telescope. January 2007. LSST Corporation. 11 Jul 2007. LSST, "LSST: A New Telescope Concept." Large Synoptic Survey Telescope. January 2007. LSST Corporation. 11 Jul 2007. Phillion, Donald, Scot S. Olivier, Kevin Baker, and Stacie Hvisc. "Tomographic wavefront correction for the LSST." Advances in Adaptive Optics II,. 6272(2006): 1-12. Phillion, Donald, Scot S. Olivier, Kevin Baker, Lynn Seppala,and Stacie Hvisc. "Tomographic wavefront correction for the LSST." Advances in Adaptive Optics II,. 6272(2006): 1-12.

17

Download ppt "Active Control of Aberrations for the Large Synoptic Survey Telescope (LSST) Brice Cannon Lawrence Livermore National Laboratory Research Supervisor: Scot."

Similar presentations

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

Built-In Test Software for Deformable Mirror High Voltage Drivers Built-In Test Software for Deformable Mirror High Voltage Drivers Jianwei Zhou Home Institution:
1.  Background on AMiBA  Problems/Things to Consider  Solutions/introduce my project  Fabrication  Conclusion  Acknowledgments 2.

1.  Background on AMiBA  Problems/Things to Consider  Solutions/introduce my project  Fabrication  Conclusion  Acknowledgments 2.
CMSC 2006 Orlando Active Alignment System for the LSST William J. Gressler LSST Project National Optical Astronomy Observatory (NOAO) Scott Sandwith New.

CMSC 2006 Orlando Active Alignment System for the LSST William J. Gressler LSST Project National Optical Astronomy Observatory (NOAO) Scott Sandwith New.
Géraldine Guerri Post-doc CSL

Géraldine Guerri Post-doc CSL
Adaptive Optics Deformable Mirror Electronics Simulation Pearl Yamaguchi Subaru Telescope National Astronomical Observatory of Japan Mentor: Stephen Colley.

Adaptive Optics Deformable Mirror Electronics Simulation Pearl Yamaguchi Subaru Telescope National Astronomical Observatory of Japan Mentor: Stephen Colley.
Laser guide star adaptive optics at the Keck Observatory Adam R. Contos, Peter L. Wizinowich, Scott K. Hartman, David Le Mignant, Christopher R. Neyman,

Laser guide star adaptive optics at the Keck Observatory Adam R. Contos, Peter L. Wizinowich, Scott K. Hartman, David Le Mignant, Christopher R. Neyman,
All these Sky Pixels Are Yours The evolution of telescopes and CCD Arrays: The Coming Data Nightmare.

All these Sky Pixels Are Yours The evolution of telescopes and CCD Arrays: The Coming Data Nightmare.
All these Sky Pixels Are Yours The evolution of telescopes and CCD Arrays: The Coming Data Nightmare.

All these Sky Pixels Are Yours The evolution of telescopes and CCD Arrays: The Coming Data Nightmare.
Darcy Bibb Oceanit Mentor: Tony Bartnicki Advisor: Curt Leonard Home Institution: Maui Community College Integration of a Small Telescope System for Space.

Darcy Bibb Oceanit Mentor: Tony Bartnicki Advisor: Curt Leonard Home Institution: Maui Community College Integration of a Small Telescope System for Space.
1 LSST: Dark Energy Tony Tyson Director, LSST Project University of California, Davis Tony Tyson Director, LSST Project University of California, Davis.

1 LSST: Dark Energy Tony Tyson Director, LSST Project University of California, Davis Tony Tyson Director, LSST Project University of California, Davis.
1 Corner Rafts LSST Camera Workshop SLAC Sept 19, 2008 Scot Olivier LLNL.

1 Corner Rafts LSST Camera Workshop SLAC Sept 19, 2008 Scot Olivier LLNL.
1 Built-In Test Software for Deformable Mirror High Voltage Drivers Jianwei Zhou Home Institution: University of Hawaii at Manoa CfAO Akaimai Intership.

1 Built-In Test Software for Deformable Mirror High Voltage Drivers Jianwei Zhou Home Institution: University of Hawaii at Manoa CfAO Akaimai Intership.
LSST Wavefront Sensing Bo Xin Systems Analysis Scientist (LSSTPO) Chuck Claver, Ming liang, Srinivasan Chadrasekharan, George Angeli (LSST wavefront sensing.

LSST Wavefront Sensing Bo Xin Systems Analysis Scientist (LSSTPO) Chuck Claver, Ming liang, Srinivasan Chadrasekharan, George Angeli (LSST wavefront sensing.
1 Large Synoptic Survey Telescope Review Kirk Gilmore - SLAC DOE Review June 15, 2005.

1 Large Synoptic Survey Telescope Review Kirk Gilmore - SLAC DOE Review June 15, 2005.
Canada-France-Hawaii Telescope Observatory Automation Project: Audio and Video Management Project by: Amber Imai Mentors: Tom Vermeulen & Bill Cruise Advisor:

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.

IRIS Telescope Camera Kimberly Bott Institute for Astronomy Mentor: Klaus Hodapp Home Institution: University of Hawaii at Hilo 2008 Center for Adaptive.
1 Mapping Maui’s Major Roads With Global Positioning System Devices Augustus Elias Center for Adaptive Optics Pacific Disaster Center Mentor: Pam Cowher.

1 Mapping Maui’s Major Roads With Global Positioning System Devices Augustus Elias Center for Adaptive Optics Pacific Disaster Center Mentor: Pam Cowher.
Tests of AST3-2 at Xinglong: Image Analysis Ma Bin NAOC 2013.05.20.

Tests of AST3-2 at Xinglong: Image Analysis Ma Bin NAOC
A visible-light AO system for the 4.2 m SOAR telescope A. Tokovinin, B. Gregory, H. E. Schwarz, V. Terebizh, S. Thomas.

A visible-light AO system for the 4.2 m SOAR telescope A. Tokovinin, B. Gregory, H. E. Schwarz, V. Terebizh, S. Thomas.
1.8 m Adaptive Optics Telescope 1.1 m Wide Field Telescope at PARI

1.8 m Adaptive Optics Telescope 1.1 m Wide Field Telescope at PARI

Similar presentations

Ads by Google