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Photon Sieves for High- Resolution Imaging Laura Dunlap, University of Maryland SESI Final Presentation 2012.

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Presentation on theme: "Photon Sieves for High- Resolution Imaging Laura Dunlap, University of Maryland SESI Final Presentation 2012."— Presentation transcript:

1 Photon Sieves for High- Resolution Imaging Laura Dunlap, University of Maryland SESI Final Presentation 2012

2 Motivation We want… …to know more than we already know about the universe …to see in more detail than we’ve seen before …to look back even further in time But we can’t see more than our optics will allow. How do we improve the resolution of our optics?

3 Bigger IS Better! Resolution largely depends on diameter: θ = λ/D But there are problems with making large lenses and mirrors… Weight Cost Too big for spacecraft Hard to make

4 Question: How do we get bigger optics in space?

5 Answer: Photon Sieves! (and other deployable diffractive membrane optics…)

6 What is a Photon Sieve?

7 How Does it Work? Light passes through the holes and diffracts around the edges - holes can be transparent material or physical holes Constructive interference from the diffracted waves results in an image at the focal point Focal length f determined by the wavelength of light λ, distance to outermost zone r N, and width of outermost zone Δr N such that: 2r N Δr N λ Every wavelength has a unique focus! f =

8 Advantages Can be produced on a flexible membrane - Lightweight - Easily deployable (think of a coffee filter) - Can be much bigger than spacecraft Less strict surface tolerance Perfect for narrow-band imaging alone or broadband imaging with additional corrective optics

9 Imaging Process Sunlight passes through the sieve and is collimated by the first lens Collimated beam passes through the DayStar filter The second lens focuses the beam and forms an image on the camera’s CCD H-alpha (656.3 nm) image 2x magnification In order to accurately track the Sun, the optical system was piggybacked on a Meade LX200 telescope (above)

10

11 Full image taken with photon sieve  Detailed image of center of field of view 

12 How did we do? Image taken with photon sieve in Greenbelt, MD Image taken by Big Bear Solar Observatory (~ 2 arcsec resolution) Approximately 3 arcsec resolution with 6 +- 3% transmission

13 Looking Forward Technology demonstration  US Air Force Academy will fly photon sieve on CubeSat  Promote production of more photon sieve imaging systems 10 meter diameter photon sieve  0.01 arcsec resolution! Extreme ultraviolet (EUV) and X-ray sieves  This area of the spectrum is nearly impossible to image with traditional optics

14 Thanks! Mentors: Adrian Daw and Doug Rabin Courtney Peck, Juliana Vievering Dr. Verner and the SESI Program

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