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1
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- Jeffrey R. Regester
- Greensboro Day School
- Greensboro NC
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2
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- An optic (lens or mirror) focuses light to form an image. DEMO: image formation with lens &
mirror
- That image is recorded on film, CCD chip, or magnified with an eyepiece
for direct viewing with
the eye.
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3
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- Refractor
- Newtonian Reflector
- Cassegrain Reflector
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4
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- Magnification (least important)
- Collect lots of light
- Improved Angular Resolution
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5
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- Angular magnification definition: how many times larger the image looks,
compared to the object seen without the telescope. In symbolic form...
- For a telescope with an eyepiece, the angular magnification is
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6
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- Magnification
- Collect lots of light
- Improved Angular Resolution
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7
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- Most telescopes have a round aperture, so...
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8
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- How much more light does one of the Keck 10m telescopes collect than
your eye (pupil diameter 5mm)?
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9
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10
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11
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- So the Keck telescope collects roughly 4,000,000 times more light than
your eye. All other things being equal, it can see objects 4,000,000
times fainter than your eye. But, all other things are NOT equal...
- CCD detector are about 90% efficient; your eye is about 5% efficient.
That is, CCDs are about 18 times more sensitive than your eye.
- Your eye cannot store or record the light. In other words, your eye
can’t do a time exposure. The human eye is like a video camera that
can’t record, taking “exposures” about 1/10th of a second
long. (That’s why you don’t notice the flickering of a movie screen,
which shows 24 frames per second.) So, if a CCD camera takes a 1-hour
time exposure (3600 seconds), that’s about 36,000 times more than one
“frame” of human vision.
- So really, the Keck can see things that are 4,000,000 times 18 times
36,000 times fainter than the human eye. That’s about 3 trillion times
fainter!
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12
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- Magnification
- Collect lots of light
- Improved Angular Resolution
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13
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- The smallest angle that can be seen by the telescope, i.e. how much
detail.
- We can’t see the surfaces of stars — they are too far away for that. The
size of the dot of light formed by a telescope (and recorded by film or
CCD chip) is determined by
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14
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- The spreading of light when it goes through a hole or past a barrier.
- DEMOS
- light through a slit
- light through a round hole
- light past a thread
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15
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- Resolution is fundamentally limited by diffraction of the light waves
entering the telescope.
- where
- D=diameter of the telescope
- λ= wavelength of the light
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16
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- Caused by refraction of light passing through the turbulent column of
air to the telescope.
- This limits resolution to no better than about 1arcsec, the diffraction
limit of a 4-inch telescope.
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17
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- Simple solution: put the telescope in space.
- Another solution: Adaptive optics
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18
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19
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- What would be the resolution of the Keck 10m telescope, using visible
light, if it could be placed in space, or with a working AO system?
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Notes
