Ice Stories: Dispatches From Polar Scientists » telescope http://icestories.exploratorium.edu/dispatches Mon, 15 Nov 2010 20:40:36 +0000 http://wordpress.org/?v=2.9.2 en hourly 1 Looking for Ozone Destroyers http://icestories.exploratorium.edu/dispatches/looking-for-ozone-destroyers/ http://icestories.exploratorium.edu/dispatches/looking-for-ozone-destroyers/#comments Tue, 05 Aug 2008 18:37:48 +0000 Zoe Courville http://icestories.exploratorium.edu/dispatches/?p=576 SUMMIT CAMP, GREENLAND– Drs. Jochen Stutz and Jennie Thomas from UCLA are up at Summit looking for halogens which could be contributing to the destruction of ozone, here at Summit and in other polar areas. The instrument they use for this is a large telescope, beaming light at reflectors several kilometers away.



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South Pole Telescope http://icestories.exploratorium.edu/dispatches/antarctic-projects/south-pole-telescope/ http://icestories.exploratorium.edu/dispatches/antarctic-projects/south-pole-telescope/#comments Tue, 13 May 2008 00:59:20 +0000 Exploratorium http://icestories.exploratorium.edu/dispatches-new/?page_id=36 Viewing the distant universe from the bottom of the world

South Pole Telescope
Tom Crawford

Jeff McMahon, Kathryn Schaffer, and Tom Crawford are all postdoctoral scientists at the University of Chicago and members of the South Pole Telescope Team. In the Antarctic summer season of 2006/7, the team raced to assemble a 30-foot (10-m) telescope at the South Pole, and in the 2007/8 season they upgraded and installed new equipment before running the telescope through its paces to collect more data about the mysterious cosmological force of dark energy.

The discovery of dark energy in 1999 stunned the scientific community because it suggests that the universe is being thrown apart by a repulsive force rather than drawn together by gravity as previous theories have proposed. By gathering data from large galaxy clusters in deep space, the South Pole Telescope will help astronomers learn more about when dark energy first developed in the universe and how it gained strength to become a dominant force today. Jeff McMahon was the first to arrive at the South Pole; his job was smoothing out the telescope mirror by tightening thousands of screws holding it together. Kathryn arrived in November 2007, and installed a piece of equipment called a Fourier Transform Spectrometer (FTS) that calibrates each of the 1000 detectors on the telescope’s sensitive camera. She also analyzed data gathered by the SPT. Tom was the cleanup man, adding an extra hand to whatever task was necessary at the end of the summer season in late January and early February 2008. Learn more about the team’s work through their dispatches, which are archived on this site.

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IceCube http://icestories.exploratorium.edu/dispatches/antarctic-projects/icecube/ http://icestories.exploratorium.edu/dispatches/antarctic-projects/icecube/#comments Tue, 13 May 2008 00:56:37 +0000 Exploratorium http://icestories.exploratorium.edu/dispatches-new/?page_id=31 Using the world’s largest neutrino telescope, buried in the ice below the South Pole, to detect violent events in distant galaxies


An aerial view of the South Pole with the South Pole Station to the left of the runway and IceCube to the right.
A string of 60 light detectors called “DOMs” (digital optical modules) are lowered deep into the Antarctic ice sheet.

DOMs under construction. The board stacks have been mounted and will be sealed inside the complete sphere.

The IceCube project is designed to detect high-energy neutrinos, particles created by the most violent events in the universe: black holes, gamma ray bursts, and supernovas. The detector serves as a deep-space telescope, allowing scientists to see impossibly distant cosmic events by detecting the neutrinos they generate.

IceCube consists of an array of ultrasensitive light detectors buried roughly a mile deep into the Antarctic ice sheet. To build it, researchers drill into the ice sheet with a hot water drill, then sink a vertical string of light detectors—think of an oversized string of Christmas lights—into the water-filled hole before it freezes over again.

Why put a neutrino detector under ice? The polar ice sheet supplies, naturally, the main ingredient needed for a neutrino detector: a large space that is totally dark and totally transparent.

Though neutrinos are zooming around us all the time—a million billion of them stream through your body each second—they can only be detected when they crash directly into the nucleus of an atom. The collision creates a faint glimmer of blue light, called Cherenkov radiation, which passes easily through the transparent ice to be “seen” by one or more of IceCube’s 4,800 light detectors. By tracking the path of these incoming neutrinos, scientists get an unprecedented view: a neutrino-based picture of the universe.


The IceCube Laboratory (ICL).

The IceCube array shown in relation to the drill camp and the bedrock beneath.

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