Tools of Astronomy: Telescopes

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Tools of Astronomy: Telescopes Lecture 9 1

Refracting Telescopes Large lens to gather and focus light. Incoming Light Objective Lens Focus Eyepiece 2

Problems w/ Refracting Tel s Must make a large piece of glass with no defects (bubbles, impurities, etc.). Must suspend the heavy glass by the rim. Chromatic aberration. Different wavelengths of light are bent differently (like a prism!) Largest refractor is ~1 meter in diameter 3

Reflecting Telescopes Reflect light from an aluminized, curved mirror to a focus. Incoming Light Mirror Surface Focus 4

Mirror shape The mirror always has the shape of a conic section: Parabola, hyperbola, or ellipse light rays Sphere Paraboloid Parabola Cassegrain Telescope Major type used in optical astronomy. Primary Mirror Secondary Mirror Focus 5

Newtonian Telescope Used by many amateur astronomers (cheaper to make than Cassegrain) Primary Mirror Eyepiece Secondary Mirror Advantages of Reflecting Tel s Light is reflected off the surface so it doesn t pass through the material. Can support from the back. No chromatic aberration (all light is reflected equally). 6

What a telescope does - Gathers up the flux from an object The amount of light collected (or power collected) depends upon the area of the telescope mirror. Thus, bigger telescopes are better. They collect more light. Your eye vs. the telescope A dark adapted eye has diameter, D ~ 7 mm. The Mt. Palomar telescope D = 5 m. so it collects 5 m 10 7 mm times more light! 3 2 mm 510, 000 m Thus you could see much fainter with it. 7

How faint can you go? Looking through the Palomar telescope you should see about 14 mags fainter i.e. 20th magnitude But Palomar observes objects much, much fainter than this (~25th mag). How does it do this? Photon Detectors Photon detectors are devices which respond to E-M radiation. Photographic film detects photons. Used in the olden days of astronomy Today solid state detectors are used, e.g. CCD s (charge-coupled devices) Used in low light level camcorders and electronic cameras. 8

Other wavelengths Solid state photon detectors in one form or another are used to detect radiation across the E-M spectrum. Photography covers a very limited portion of this spectrum Mostly visible, Not very efficient (only detecting 1 photon in about 20) Integration time Integration time is the exposure time of the detector. The dark adapted eye integrates photons for ~1/8 to 1/4 second. CCDs can integrate for hours. The long exposure time means many photons can be collected from the source. 9

Angular Resolution Angular resolution is the ability to distinguish between nearby objects. Measured in arcseconds or arcminutes The eye has a spatial resolution of ~1 arcminute. Angular resolution (cont d) Measures the clarity with which you can see. The following sequences show progressively poorer angular resolution. As the angular resolution gets poorer Images are more blurry Contrast is decreased. 10

Angular resolution (cont d) Consider two telescopes looking at pairs of stars that are progressively closer together. Pair 1 Pair 2 Pair 3 Pair 4 Pair 5 Pair 6 Telescope 1 Telescope 2 Angular resolution of Telescope 2 Telescope 2 has better angular resolution than telescope 1. Empty magnification Magnifying the images doesn t help. Beyond a certain point, you get big fuzzies. The resolution of the system is not improved. 11

Angular resolution (cont d) The angular resolution, of a telescope (in radians) is given by: D where = the wavelength D = telescope diameter SMALLER angular resolution is BETTER. Some numbers Optical wavelengths ( ~ 5000 A) " ' 4.9 D(inches) 41 (cm) D(meters) A dime subtends 1 at 2 km! 0.12 D(meters) Radio wavelengths (1 mm to 100 m) 12

Notes on Angular Resolution Larger telescopes have better angular resolution. But it is the size of the telescope relative to the wavelength that counts. Radio telescopes need to be very large to get good angular resolution. If you had radio eyes If your eyes operated in the radio (rather than the visible. For = 1 cm, = 1 arcminute D 41 ( cm) (') meters 41 meters You would have to have 41 meter pupils to see with the resolution you have now. 13

Atmospheric blurring Telescopes are placed on mountain tops to get better seeing (thinner air). But atmospheric blurring limits the angular resolution ~0.5 arcsec (5000 A). Adaptive optics corrects the blurring due to the atmosphere in real time Uses a deformable mirror Developed for the military Interferometers Interferometry synthesizes a larger diameter telescope with a set of smaller telescopes spaced a large distance apart. Achieves high angular resolution roughly equal to the largest telescope spacing. 14

Schematic Interferometer Individual telescope diameter (D) Synthesized Diameter (D s ) Angular Resolution: = /D s Schematic Radio Telescope Secondary Secondary Supports Receivers Primary Dish Steerable Support System Satellite dishes are smaller versions of this. 15

GBT (Green Bank Telescope) 16

Features of Interferometers Advantage: Cheap to build compared to a single large telescope. Disadvantage: Most photons hit the ground between the dishes. Thus interferometers give excellent angular resolution but are much less sensitive than a single filled aperture telescope would be. Radio Interferometers Most interferometry is done in the radio. The Very Large Array (VLA) 27 radio dishes, each 25 m in diameter spaced in a Y pattern which is 20 km along each leg. Simulates a 40 km diameter telescope At 2 cm the angular resolution is about 0.1 Could see a dime in Elmira! 17

VLA (Very Large Array) Radio Interferometers (cont d) The Very Long Baseline Array (VLBA) 10 radio dishes, 25 m in diameter located across the world from Hawaii to the Virgin Islands. The baseline is about 16,000 km. The resolution at 2 cm is ~0.0003!! Could split a hair in Elmira! 18

Telescope Summary Reflecting telescopes are the best. Larger telescopes collect more photons => larger is better Angular resolution: ~ / D => larger is better Interferometry allows a large aperture to be simulated. Where to put your telescope Put on barren mountain tops For best seeing Keep away from big cities Avoid light pollution But not always enough! -- Ain t no mountain high enough! 19

Transmission Submm 10/17/2012 Transparancy of the Earth s Atmosphere Transparent Optical Radio Opaque -ray X-ray UV Vis IR mm Radio Longwave Radio Getting rid of the atmosphere Put telescopes above the atmosphere! Eliminates seeing as a problem. Gets above the absorbing atmosphere. Possibilities Airborne Observatories Balloons Spacebased observatories 20

Kitt Peak National Observatory Mauna Kea 21

Gemini Keck Observatory 22

Keck Mirror JCMT (James Clerk Maxwell Telescope) 23

300 ft. Telescope GBT (Green Bank Telescope) 24

GBT (Size Comparison) HST 25

HST Servicing SQUARE KILOMETER ARRAY 26

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