1 / 36

Improving a fiber optic interferometer for the SAFARI instrument

Improving a fiber optic interferometer for the SAFARI instrument. In Cooperation with Technobis. Graduate commission: Ir. J.W. Spronck Prof. Ir. R.H. Munnig Schmidt Ing. R. Evenblij Dr. J.J. van den Dobbelsteen. Please turn of your mobile phones or switch them to silent mode!.

mahon
Download Presentation

Improving a fiber optic interferometer for the SAFARI instrument

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Improving a fiber optic interferometer for the SAFARI instrument In Cooperation with Technobis Graduate commission: Ir. J.W. Spronck Prof. Ir. R.H. Munnig Schmidt Ing. R. Evenblij Dr. J.J. van den Dobbelsteen

  2. Please turn of your mobile phones or switch them to silent mode!

  3. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations Introduction Space telescope: “SPICA” What is the SAFARI instrument?

  4. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations Introduction Instrument: “SAFARI” = Mirror 1 = Mirror 2 What is the SAFARI instrument?

  5. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations Introduction Optical Delay Line: “ODL” What is the fiber optic interferometer?

  6. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations Introduction Fiber optic interferometer: “LUNASYS” What is the fiber optic interferometer?

  7. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations Introduction Space telescope name Instrument used to perform measurements in the far infrared spectrum Mechanism used to position two mirrors Considered system for this MSc presentation What is the fiber optic interferometer?

  8. Introduction Resolution = 1 (nm) o Operate at 4.5 (K) = -269 C Main goal: Improve the fiber optic interferometer from Technobis such that it fulfills the requirements for within the SAFARI instrument. Accuracy = 10 (nm) Heat load < 100 (μW) Stray light power < 890 (nW) Measurement range = 35 (mm) What is the main goal of Technobis for the fiber optic interferometer?

  9. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations Introduction Irradiance: How does a fiber optic interferometer work?

  10. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations Introduction How does a fiber optic interferometer work?

  11. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations Introduction How does a fiber optic interferometer work?

  12. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations Introduction How does a fiber optic interferometer work?

  13. Contents • Research questions • Requirements and specifications • Problem analysis • New concept • Conclusions • Recommendations

  14. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations Research questions • Is the current setup of LUNASYS operational for the • SAFARI instrument? a) What are the requirements for LUNASYS for the SAFARI application? b) What are the specifications of the current setup of LUNASYS? • What needs to be improved on the current setup of • LUNASYS to make the system operational for the SAFARI application? c) Is temperature the dominant factor causing the drift of LUNASYS? d) What needs to be improved on the current setup of LUNASYS in order to reach the targeted requirements? What research questions are formed from the main goal of my thesis?

  15. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations Requirements and specifications a) + b) What are the requirements and specifications for the fiber optic interferometer?

  16. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations Problem analysis Method: c) Is temperature the dominant factor causing the drift of the fiber optic interferometer?

  17. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations Problem analysis Summarize possible drift causes • Laser wavelength stability • Mechanical vibrations • Refractive index changes of air • Phase and gain changes of the 3x3 splitter • Temperature disturbances acting on the 1(nm) 12 (nm) 94 (nm) ??? 750 (nm) measurement and the reference arm c) Is temperature the dominant factor causing the drift of the fiber optic interferometer?

  18. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations Problem analysis Determine dominant drift cause In vacuum: n = constant @ 4.5 (K): c) Is temperature the dominant factor causing the drift of the fiber optic interferometer?

  19. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations Problem analysis Analyze dominant drift cause = Temperature sensor Calculate position drift with the measured temperature changes in the fibers! c) Is temperature the dominant factor causing the drift of the fiber optic interferometer?

  20. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations Problem analysis Analyze dominant drift cause c) Is temperature the dominant factor causing the drift of the fiber optic interferometer?

  21. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations Problem analysis Validate dominant drift cause Temperature disturbances acting on the measurement and the reference arm are the dominant factor causing the drift! c) Is temperature the dominant factor causing the drift of the fiber optic interferometer?

  22. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations New concept Tekst afmaken!! Splitter coating d) What needs to be improved on the fiber optic interferometer to meet the requirements?

  23. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations New concept Quadrature phase relation: d) What needs to be improved on the fiber optic interferometer to meet the requirements?

  24. Introduction Research questions Requirements and specifications Problem analysis New concept Conclusion Recommendations New concept I1 I2 d) What needs to be improved on the fiber optic interferometer to meet the requirements?

  25. Introduction Research questions Requirements and specifications Problem analysisNew concept Conclusion Recommendations Conclusion • The current setup of LUNASYS is not yet operational for the SAFARI application • Temperature disturbances acting on the reference and the measurement arm are the dominant factor causing the drift in the current setup of LUNASYS • The new fiber optic interferometer concept is much less sensitive to temperature disturbances (a factor of 1,000,000) and less strict demands regarding cryogenic functionality • Stray light has been reduced to a acceptable level • The calculated heat load meets the requirements Verbeteren!!

  26. Introduction Research questions Requirements and specifications Problem analysisNew concept Conclusion Recommendations Recommendations • Work out the promising new fiber optic interferometer concept • Custom design the lens for 4.5 (K) in order to obtain functionality at cryogenic temperature • Reduce the required electrical power for the laser, by choosing another laser or improve the current laser • Space qualification in corporation with SRON. Positiever maken!!

  27. Questions Questions or compliments?

  28. Extra slides 1 Extra interferometer concept 2

  29. Extra slides 2 Extra interferometer concept 3

  30. Extra slides 3

  31. Extra slides 4

  32. Extra slides 5

  33. Extra slides 6

  34. Extra slides 7

  35. Extra slides 8

  36. Extra slides 9

More Related