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Your Observing Challenge: White Dwarfs in Open Star Clusters. Star clusters are collections of stars born nearly-simultaneously. Once we know their ages, we can determine how different stars change with time. Messier 35 and NGC 2158 (CFHT). 47 Tucanae (HST).
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Star clusters are collections of stars born nearly-simultaneously. Once we know their ages, we can determine how different stars change with time. Messier 35 and NGC 2158 (CFHT) 47 Tucanae (HST)
Models tell us how the appearance of stars should change with time.
The ages of star clusters are usually determined by the “main sequence turn-off” in a color-magnitude diagram.
The models that give white dwarf ages use different physics from the models that give us main sequence ages, giving us a sanity check! von Hippel (2005)
Your Observing Challenge: Take pictures of a star cluster with our 0.8-meter telescope and find candidate white dwarfs that might be useful for studying ages of the cluster. First, let’s examine your primary tools: the CCD camera and ImageJ
Light is the only probe we have for objects outside the solar system.
Telescopes are funnels that collect large amounts of light from stars, but must send light somewhere.
Several devices are capable of collecting light and storing information about it.
William & Caroline Herschel Maria Mitchell Heber Curtis The first modern astronomers used their eyes, pencil and papers and brains.
Eyes can only do comparisons between objects, and have trouble making quantitative measurements.
The brain is not the most reliable image processing software.
Henry Draper 1880 John Draper 1839 David Malin 1979 Around the turn of the century, photographic plates became popular.
CCDs are the modern astronomer’s weapon of choice for observing.
CCDs can integrate for long times at nearly 100% efficiency.
The images are read into a computer and stored on disk. Dr. Jana Pittichova
CCDs pictures can be added together, letting you see fainter. Single Stack of 5
CCDs are made of individual pixels, each of which works independently.
The electrons knocked out of silicon are held in a well until the exposure is finished.
After the exposure, circuitry counts the number of electrons and reports it to the computer.
If the signal is too high, the circuitry can’t count the electrons – the pixel is “saturated.”
Colors are measured by taking images through colored glass filters.
Measuring brightness through different filters gives us color. From Hubblesite.org
There are dozens of flavors of filters; the most common are the Johnson system Throughput (%) U = ultraviolet B = blue V = green R = orange/red I = very red (not infrared) blue red Wavelength
CCDs are not perfect, so astronomers must take calibration data every night.
Images of “standard stars” allow images to be put on an absolute scale.
Different telescopes and instruments have different throughput.
Dust and haze change the amount of light reaching the ground.
Calibration using standard stars lets us compare data from different telescopes and nights.
With cameras using one or more CCDs, astronomers have been study very large areas of sky. Keck Observatory LRIS Kitt Peak Mosaic Steward Observatory 90Prime
Astronomers need cameras that take long exposures and are efficient.
CCDs fit the bill -- provided the right calibrations are taken.