1. An easy way to relate optical element motion to �system pointing stability Jim Burge
College of Optical Sciences
Steward Observatory
University of Arizona
2. Prof. Jim Burge Room 733 (in the new building)
Research
Optical systems engineering and development
Fabrication and testing
Optomechanics
Astronomical Optics
Teaching
Applied optics classes (Optics laboratory, optomechanics)
Other
Sailing, diving, fishing in San Carlos, Mexico
Mountain biking
Ultimate frisbee
Beer brewing
3. Goals for this talk Provide
Basic understanding of some optical/mechanical relationships
Definition, application of the optical invariant
Useful, easy to remember equations to help make your life easier
4. Motion of optical elements Tilt and decenter of optical components (lenses, mirrors, prisms) will cause motion of the image
Element drift causes pointing instability
Affects boresight, alignment of co-pointed optical systems
Degrades performance for spectrographs
Element vibration causes image jitter
Long exposures are blurred
Limit performance of laser projectors
Small motions, entire field shifts (all image points move the same)
Image shift has same effect as change of line of sight direction
(defined as where the system is looking)
5. Lens decenter All image points move together
Image motion is magnified
6. What happens when an optical element �is moved? To see image motion, �follow the central ray
Generally, it changes in position and angle
7. Lens motion
8. Effect for lens tilt Can use full principal plane relationships
Lens tilt often causes more aberrations than image motion
9. Mirror motion
10. Motion for a plane parallel plate
11. Motion of an optical system Use principal plane representation
12. Rotation of an optical system �about some general point Combine rotation and translation to give effect of rotating about arbitrary point C
13. Stationary point for rotation Solve for stationary point. Rotation about this point does not cause image motion at distance d.
14. Optical Invariant
15. Use of invariant for image motion
16. The easy part
17. Example for change in angle
18. Effect of lens decenter Decenter s causes angular change
Which causes image motion
Magnification of Image / lens motion
19. Effect of lateral translation From analysis above:
20. Example for mirror tilt
21. Afocal systems For system with object or image at infinity, effect of element motion is tilt in the light.
Simply use the relationship from the invariant:
Where
Dq0 is the change in angle of the light in collimated space
D0 is the diameter of the collimated beam
22. Other useful things Useful for pupil image as well. Just be careful to use correct definitions
Also use this to relate slope variation across pupil to the size of the image blur
This gives an easy way to relate surface figure to image blur. More on this later
