Thursday, April 11, 2013

Open house at the Dark Sector Part 1

As part of the sunset weekend there is an open house in the Dark Sector. I am re-posting this from April 11, 2013 winter as all the science labs and experiments are the same. 

I will later post part two which will include a new set of pictures. 

The three labs that compose the Dark Sector presented an Open House after sunset.

Why science at the South Pole?

copied from: http://www.nsf.gov/news/special_reports/livingsouthpole/sciencegoals.jsp
Astronomy
Sitting at a fixed point while the Earth rotates, telescopes at the pole can track celestial objects for long periods of time from the same elevation in the sky. For many years, the equipment there was used to make long, continuous solar observations—some lasting more than 100 hours.
The extremely dry, cold air is also perfectly suited for observing the cosmic microwave background (CMB) radiation—the faint light signature left by the Big Bang that brought the universe into being nearly 14 billion years ago. The pattern of these ancient photons reveals the contents and structure of the infant cosmos. Astrophysicists know that the universe has been expanding since the Big Bang occurred 13.8 billion years ago. In the late 1990s, astronomers using exploding stars as cosmic tape measures discovered that the expansion of the universe is accelerating. This led them to the idea that Dark Energy pushes the universe apart, overwhelming gravity, the attractive force exerted by all matter in the universe.
In 2007, the massive South Pole Telescope--the largest radio telescope ever built in Antarctica—collected its first observations and has since been gathering data about the accelerating expansion of the Universe. The $19.2 million telescope was funded primarily by the National Science Foundation (NSF), with additional support from the Kavli Foundation of Oxnard, Calif., and the Gordon and Betty Moore Foundation of San Francisco.
The telescope stands 75 feet (22.8 meters) tall, measures 33 feet (10 meters) across and weighs 280 tons (254 metric tons). It was assembled in Kilgore, Texas, then taken apart, shipped across the Pacific Ocean to New Zealand, and flown from there to the South Pole. For more information about the South Pole Telescope, its science mission and its findings to date, see http://pole.uchicago.edu/.


Astrophysics
If the South Pole telescope is examining the universe on the galactic scale, another relatively new and equally impressive observatory is searching for evidence of the existence of particles at the subatomic level.

Built into the ice sheet, the one-cubic-kilometer IceCube Neutrino Observatory records the rare collisions of neutrinos--elusive sub-atomic particles--with the atomic nuclei of the water molecules of the ice. Some neutrinos come from the sun, while others come from cosmic rays interacting with the Earth's atmosphere and dramatic astronomical sources such as exploding stars in the Milky Way and other distant galaxies. Trillions of neutrinos stream through the human body at any given moment, but they rarely interact with regular matter, and researchers want to know more about them and where they come from.

In December of 2010, the last of 86 holes had been drilled and a total of 5,160 optical sensors had been installed to form the main IceCube detector, culminating a decade of planning, innovation and testing, construction. This landmark brought to a close one of the most ambitious and complex multinational scientific construction projects ever attempted. NSF contributed $242 million toward the total project cost of $279 million.
The University of Wisconsin-Madison, as the lead U.S. institution for the project. In addition to researchers at universities and research labs in the U.S., Belgium, Germany and Sweden--the countries that funded the observatory--IceCube data are analyzed by the larger IceCube Collaboration, which also includes researchers from Barbados, Canada, Japan, New Zealand, Switzerland and the United Kingdom. For more information, visit the IceCube Web site at http://www.icecube.wisc.edu
Air and Ozone
The pristine quality of the air at the pole makes it an ideal benchmark for changes in the quality and composition of the atmosphere elsewhere. Such data has been collected since NOAA established its South Pole Observatory during the 1957-58 International Geophysical Year (IGY)—one of the longest continuous records in atmospheric science.

Other atmospheric research at the pole includes releasing balloons to monitor the condition of the Earth's protective ozone layer. Data from these studies helps keep track of how well international treaties, aimed at curbing the use of harmful chemicals, are working to heal the seasonal hole in the ozone layer. To view recent and past ozone data collected by the balloons, visit the NOAA Global Monitoring Division Web site athttp://www.esrl.noaa.gov/gmd/obop/spo/
Seismic Science
Eight kilometers (five miles) from Amundsen-Scott South Pole Station, scientists supported by USGS and others are recording shudders from earthquakes around the world. Seismographs have been operating at the pole since IGY, and data from high-latitude seismograph stations has helped to prove that the Earth's solid inner core spins at a slightly faster rate than the rest of the planet.

One of the newest stations in the Global Seismograph Network (GSN) is called SPRESO: South Pole Remote Earth Science Observatory. Operated by the Incorporated Research Institutions for Seismology, a research consortium of 100 universities, it is the quietest seismic listening post on the planet. It employs instruments installed roughly 300 meters (1000 feet) beneath the surface of the continental East Antarctic ice sheet to recorded seismic waves that ring through the globe like vibrations in a struck bell. Further information about GSN is available at http://www.usgs.gov/features/south_pole/
Off-World Simulations
Even the relentless wind that carries and drifts snow across the Antarctic plateau, while a continual obstacle for designers of the new station, is beneficial to scientists. In 2004, the Tumbleweed Rover, a product of NASA's Jet Propulsion Laboratory, left South Pole station on a 70-kilometer (40-mile), wind-driven trek across Antarctica. The test was designed to confirm the rover's long-term durability in an extremely cold environment, with an eye toward eventually using the devices to explore the Martian polar caps and other planets in the solar system. Further information about Tumbleweed's trek across the Antarctic plateau is available in NSF press release 04-024 athttp://www.nsf.gov/news/news_summ.jsp?cntn_id=100342&org=NSF&from=news

—by Peter West






Open House at the Dark Sector. This is the MAPO Laboratory with radio telescopes.


Looking up to the SPUD (South Pole Upgrade DASI mount)/KECK Array. This system also does cosmic microwave research of the universe.
SPUD/KECK Array is on the left. The building is called MAPO.

This is one of the five receivers/detectors that make up the telescope.
This picture I took earlier in the season shows the topside of the receivers.

A large amount of cable wrap. The array of five receivers rotate inside the stationary parabolic reflector.

It is commonly called the South Pole Inflationary Cosmology Experiment (SPICE) antenna and fits the five SPICE Girls. Photo credit: Robert Schwarz.

The South Pole Telescope (SPT) looks back to the universe almost 14 billion years ago.

This is the perfect spot for SPT. The air is clean, cold, dry, and dark in the winter. There is no air or light pollution.


A previous picture of the IceCube Laboratory.




The neutrinos captured by the 5,484 Digital Optical Modules (DOMs) as shown on a previous post are captured and displayed on this monitor. Data from the detectors is processed and sent to researchers from 39 institutions in eleven countries. 
A Digital Optical Module (DOM)

The cables from the 86 strings and thousands of DOMs come up from the ice in the two IceCube columns.
The cable tray coming from one of the lab columns.

Patch panel for all the cables.

The cables are routed to the rear of the computer servers.

There are close to 100 servers.

The layout of a server. 


3 comments:

  1. Hi Mike We heard from Jocelyn the other day She is going to try and make it to Boulder Colorado And will stay with us a couple of days. I'm hoping she didn't get caught in the snowstorm. Will let you know how our visit is With her.. Looking forward to having her stay here. Again on this trip we are enjoying your blog.janice n charlie

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    1. Thanks Janice and Charlie. Nice to hear from you. I hope Jocelyn does get to visit.

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  2. LMAO spice girls. yay for science!

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