Presentation is loading. Please wait.

Presentation is loading. Please wait.

Thermal lensing and the Gingin test 1

Published byMarie Ratté Modified over 5 years ago

Similar presentations

Presentation on theme: "Thermal lensing and the Gingin test 1"— Presentation transcript:

1 Thermal lensing and the Gingin test 1
Jérôme Degallaix Gingin international workshop October 2005

2 Presentation of the first test
80 meters long cavity 6W input laser 5kW circulating power Strong thermal lensing Sapphire test mass Diameter: 100 mm Waist size: 8 mm Abs = 50ppm/cm Uniform absoprtion

3 Effect of thermal lensing
Change the apparent ITM Radius Change cavity modes Example: 6W input power, 5kW circulating power Pabsorbed = 2.5 W FITM = 472 m

4 Presentation of the first test
Pcirc Pin Gain = Pcirc / Pin

5 No thermal lensing

6 1W input power

7 2W input power

8 3W input power

9 4W input power

10 5W input power

11 6W input power

12 7W input power

13 8W input power

14 9W input power

15 10W input power

16 Do we need a FFT simulation ?
Thermal lensing deformations: non spherical!

17 Higher order modes comparison

18 Idea of compensation

19 HOM spectrum with CP CP works fine for TEM00
Make higher order mode worst!

20 Problem with the PRC Arm cavity PRC
PRC degenerate  Higher order mode resonant! g factor PRC = Frequency separation between HOM f = 10 kHz ( FWHMPRC = 130 kHz )

21 Make the PRC non degenerate
Arm cavity PRC For example: g =  f = 340 kHz (> 2 * FWHMPRC ) Do not compensate totally thermal lensing fITM = 10 km

22 Compensation plate works (for TEM00)
Need to investigate the behavior of HOM Does not any correct any inhomogeous absorption

23

24 Profile of the deformations
Thermal lensing deformations: non spherical!

25 Circulating power comparison

26 Reflected power

27 Higher order modes comparison

28 Higher order modes comparison

29 4W circulating power profile

Download ppt "Thermal lensing and the Gingin test 1"

Similar presentations

Stefan Hild, Andreas Freise University of Birmingham Roland Schilling, Jerome Degallaix AEI Hannover January 2008, Virgo week, Pisa Advanced Virgo: Wedges.

Stefan Hild, Andreas Freise University of Birmingham Roland Schilling, Jerome Degallaix AEI Hannover January 2008, Virgo week, Pisa Advanced Virgo: Wedges.
Ring Dampers and Gold Barrel Coatings -to control parametric instabilities Chunnong Zhao on behalf of Gingin facility, ACIGA/UWA.

Ring Dampers and Gold Barrel Coatings -to control parametric instabilities Chunnong Zhao on behalf of Gingin facility, ACIGA/UWA.
Hiro Yamamoto LLO April 3, 2014 LIGO-G1400162 Core Optics related loss hierarchy of aLIGO Hiro Yamamoto LIGO/Caltech Introduction Loss related to geometry.

Hiro Yamamoto LLO April 3, 2014 LIGO-G Core Optics related loss hierarchy of aLIGO Hiro Yamamoto LIGO/Caltech Introduction Loss related to geometry.
Marcus Ng Mentor: Alan Weinstein Co-mentor: Robert Ward

Marcus Ng Mentor: Alan Weinstein Co-mentor: Robert Ward
The Threat of Parametric Instabilities in Advanced Laser Interferometer Gravitational Wave Detectors Li Ju Chunnong Zhao Jerome Degallaix Slavomir Gras.

The Threat of Parametric Instabilities in Advanced Laser Interferometer Gravitational Wave Detectors Li Ju Chunnong Zhao Jerome Degallaix Slavomir Gras.
Thermal Compensation NSF David Ottaway LIGO Laboratory MIT.

Thermal Compensation NSF David Ottaway LIGO Laboratory MIT.
Measurement of the laser beam profile at PSL to Mode Cleaner interface for the 40 Meter Prototype Interferometer A table of contents 1. Introduction 1.1.

Measurement of the laser beam profile at PSL to Mode Cleaner interface for the 40 Meter Prototype Interferometer A table of contents 1. Introduction 1.1.
Thermal Compensation Review David Ottaway LIGO Laboratory MIT.

Thermal Compensation Review David Ottaway LIGO Laboratory MIT.
Stefan Hild, Andreas Freise, Simon Chelkowski University of Birmingham Roland Schilling, Jerome Degallaix AEI Hannover Maddalena Mantovani EGO, Cascina.

Stefan Hild, Andreas Freise, Simon Chelkowski University of Birmingham Roland Schilling, Jerome Degallaix AEI Hannover Maddalena Mantovani EGO, Cascina.
Stefan Hild, Andreas Freise, Simon Chelkowski University of Birmingham Roland Schilling, Jerome Degallaix AEI Hannover Maddalena Mantovani EGO, Cascina.

Stefan Hild, Andreas Freise, Simon Chelkowski University of Birmingham Roland Schilling, Jerome Degallaix AEI Hannover Maddalena Mantovani EGO, Cascina.
What are GW’s ?? Fluctuation in the curvature of space time, propagating outward form the source at the speed of light Predicted by Einstein’s GTR Gravitational.

What are GW’s ?? Fluctuation in the curvature of space time, propagating outward form the source at the speed of light Predicted by Einstein’s GTR Gravitational.
Design of Stable Power-Recycling Cavities University of Florida 10/05/2005 Volker Quetschke, Guido Mueller.

Design of Stable Power-Recycling Cavities University of Florida 10/05/2005 Volker Quetschke, Guido Mueller.
Intermediate review - ERC – February 9, 2009 – L. Pinard 1 Mirrors Sub-System Overview  Introduction  Scope of the subsystem, main tasks  Job done since.

Intermediate review - ERC – February 9, 2009 – L. Pinard 1 Mirrors Sub-System Overview  Introduction  Scope of the subsystem, main tasks  Job done since.
Test mass dynamics with optical springs proposed experiments at Gingin Chunnong Zhao (University of Western Australia) Thanks to ACIGA members Stefan Danilishin.

Test mass dynamics with optical springs proposed experiments at Gingin Chunnong Zhao (University of Western Australia) Thanks to ACIGA members Stefan Danilishin.
Degeneracy for power-recycling and signal recycling cavities in Advanced Virgo.

Degeneracy for power-recycling and signal recycling cavities in Advanced Virgo.
1 The Status of Melody: An Interferometer Simulation Program Amber Bullington Stanford University Optics Working Group March 17, 2004 G040131-00-D.

1 The Status of Melody: An Interferometer Simulation Program Amber Bullington Stanford University Optics Working Group March 17, 2004 G D.
Absorption in bulk crystalline silicon and in the crystal surfaces Aleksandr Khalaidovski 1 Alexander Khalaidovski 1, Jessica Steinlechner 2, Roman Schnabel.

Absorption in bulk crystalline silicon and in the crystal surfaces Aleksandr Khalaidovski 1 Alexander Khalaidovski 1, Jessica Steinlechner 2, Roman Schnabel.
Sapphire Test Masses ACIGA/UWA High lights of research at UWA Alternative approach to suspensions High power test facility Cryogenic applications Mark.

Sapphire Test Masses ACIGA/UWA High lights of research at UWA Alternative approach to suspensions High power test facility Cryogenic applications Mark.
Thermal Compensation in Stable Recycling Cavity 21/03/2006 LSC Meeting 2006 UF LIGO Group Muzammil A. Arain.

Thermal Compensation in Stable Recycling Cavity 21/03/2006 LSC Meeting 2006 UF LIGO Group Muzammil A. Arain.
Absorption in bulk crystalline silicon and in the crystal surfaces Aleksandr Khalaidovski 1 Alexander Khalaidovski 1, Jessica Steinlechner 2, Roman Schnabel.

Absorption in bulk crystalline silicon and in the crystal surfaces Aleksandr Khalaidovski 1 Alexander Khalaidovski 1, Jessica Steinlechner 2, Roman Schnabel.

Similar presentations

Ads by Google